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Design Criteria - Pacific Construction Services, Inc.

1. y e 4 v Li i m T oe con EC ae S ieri PV PANELS a w RT dri BALLASTED SYSTEM H LEAL te MERI S SET 7 ON FLAT ROOFS TYP at Salem I II TI nune m m 4 5 PTPTITTTTTT JCTTTTTTT ae MS M ow 1 Tia E ER ame S d B RECOMMENDS TRIMMING TREE T PRA lt pee B s BID ALTERNATE 90 0 PV PANELS LOCATED ON COVERED PARKING STRUCTURES RISI T S w O WG I n 54 s F c 8 2 95 gt t b a o ig S Eo v t 8 ao s 359 a 85 Me LLI U 1 i m 5 o lt Li o gt 22502 lt lt amp m lt CL 3 LER gt Q 5 3 4 T J 4 Sheet i Reference SHADOW ANALYSIS SITE PLAN A 100 NOT TO SCALE TRUE PLAN Sheet of NORTH NORTH M lt A B C D E UNREVIEWED NOT FOR CONSTRUCTION This page intentionally left blank US Army Corps of Engineers Fort Worth District 819 Taylor Street P O Box 17300 Fort Worth TX 76102
2. 14 Step 5 Dress the Engage Cable 2 2 4 15 Step 6 Terminate the Unused End of the Engage Cable 17 D bo Ehe TOT gt ene BEER ne aa Faut Few Pedo potett 17 Replacing or Removing the Terminator 19 Step 7 Connect the Engage Cable to Junction 19 Step 8 Verification and 21 Disconnecting a Microinverter from the Engage 22 RB iz e SSS saa 23 Appendix Sample Wiring 2 2 002 22222 25 Sample Wiring Diagram 240 0 2 0 02000 2 2 2 ns 25 Sample Wiring Diagram 208 uuu d Vx FRE VERKEXEESEER YEN VENE ER OD e CRX ts 26 Page 3 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b 4 Copyright Enphase Energy Inc 2011 141 00013 Rev 03b o Y Important Safety Information Page 5 Read this First To reduce the risk of electrical shock and to ensure the safe installation and operation of the Enphase System the following safety indications appear throughout this document I
3. 5 m 5 EGOISTE 5 Enphase Engage Cable and Accessories 7 7 EU s saves tr ___ _ _ Econ 7 Pali ma Tools RSOUIEGG e 1 LORI Surde Protection __ 7 Selecting Cable Type 2 2 4 4 4 5 8 Connector Spacing ODEIOTIS ngrinin uu AGERENT Y CERE CP NS CHA SOR e PN ER RC OR 8 Voltage Types and Conductor 2 2 2 2 7 7 2 2 2 9 Racking Compatibility 220 0 2 2 2 4 2 22 9 Cabina cain u rua DEOR T Ocio e 9 Planning for Cable Lengths and Type 0 2 2 7 2 7 4 10 Enphase Engage Cable and Accessories 11 Installation PFOGCed ure_ uuu uuu __ _ ___ ___ __ 12 Step 1 Measure AC at Service Entrance 5 12 Step 2 Install the AC Branch Circuit Junction BOX 13 Step Position the Enphase Engage 14 Step 4 Attach the Microinverters to the Racking
4. Copyright Enphase Energy Inc 2011 141 00013 Rev 03b 6 Copyright Enphase Energy Inc 2011 141 00013 Rev 03b enphase Gx 1 The Enphase Engage Cable and Accessories Page 7 The Engage Cable is a continuous length of 2 5 mm2 12 AWG outdoor rated cable with integrated connectors for microinverters These connectors are preinstalled along the Engage Cable at intervals to accommodate PV module widths The microinverters plug directly into the cable connectors Compatibility The cabling is compatible with a variety of PV racking systems For a list of approved PV racking systems refer to the PV Racking Compatibility document on the Enphase website http www enphase com support downloads Parts and Tools Required In addition to the Enphase microinverters PV modules PV racking and associated hardware you will need the following items Enphase equipment e Enphase Engage Cable See Selecting Cable Type on page 8 for options Watertight sealing caps as needed for any unused drops on the cable Terminators as needed for AC branch circuit cable ends e Cable clips e Enphase disconnect tool number 2 Phillips screwdriver can be substituted Other items e Outdoor rated weather proof AC junction box es Grounding conductor e Torque wrench sockets wrenches for mounting hardware e Adjustable wrench or open ended wrench for terminators
5. 9 gt 22 ie a NG gen TT OTT 9 8 2 Electrical 9 9 RECOMMENDATIONS 9 9 1 General Recommendations LLL Ll Lu u 9 BLAIRREMY ARCHITECTS Page 2 Site Visit Terre Haute IN 1 EXECUTIVE SUMMARY The Corps of Engineers Fort Worth District has retained A E Services from Blair Remy Corporation for Solar Photo Voltaic PV Systems design for the MARFORRES Site in Terre Haute IN The PV System project includes the design of an 82 kW Solar PV System installation on existing facilities at the site in support of fulfilling the requirements of the National Defense Authorization Act of 2007 and Executive Order 13423 regarding renewable energy requirements 2596 renewable by 2025 2 PROJECT LOCATION AND FIELD VISIT SCHEDULE 2 1 Project Location Marine Force Reserves site at Terre Haute IN 2 2 Field Visit Schedule The site visit for field survey was conducted on 25 March 2014 9 FIELD VISIT NOTES 3 1 Field Visit Attendee List Bernard Braddick 405 340 9503 bbraddick blairremy com Judd Oakes 678 281 0907 Judd Oakes merrick com 3 2 General Meeting Notes The PV systems site visit was conducted during typical business hours on Tuesday 25 March 2014 Weather conditions were cold approximately 30 35 degrees Survey was delayed due to morning snow fall Around
6. 6 Roof 3 Design Design Properties Module Manufacturer SolarWorld Module Model Protect SW 275 Mono Black Inverter Manufacturer Custom Inverter Model Enphase Energy Due to spacing constraints only the manufacturer and model of the first inverter is included in this report Derate Factor 0 76 Design Result Chart AC kWh Layout View Length 152 03 ft Width 152 00 ft Azimuth 270 00 Slope 18 00 Total Modules 50 Solar Access 100 ss Color Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer 7 Roof 4 Design Design Properties Roof 4 Module Manufacturer SolarWorld AC kWh Module Model Protect SW 275 Mono Black Inverter Manufacturer Custom Jan 423 4 Inverter Model Enphase Energy Feb 577 4 Due to spacing constraints only the manufacturer and model of the first inverter is included in this report Derate Factor 0 76 Mar 829 8 Design Result Chart AC kWh Layout View Length 143 00 ft Width 42 00 ft Azimuth 180 00 Slope 10 00 Total Modules 35 So la r Access 100596 95 9055 Color un i Sc Imetric MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer 8 Roof 5 Design Design Properties Module Manufacturer SolarWorld Module Model Protect SW 275 Mono Black Inverter Manufacturer Custom Inver
7. C2 6 329 233 745 233 1 41 7 337 216 753 216 1 42 8 345 199 761 199 1 43 59 353 183 769 183 476 921 1 44 http www sunearthtools com solar payback photovoltaic php 7 29 2014 online calculator economic return of a photovoltaic system solar pv payback photovoltai Page 1 of 5 SunEarthTools com Tools for consumers and designers of solar Sun Position CO2 Emissions Unit of measure converter Full interactive map Measure on Map Coordinates conversion SunRise SunSet Calendar Photovoltaic FAQ Build a sundial x Albuquerque Solar experts positiveenergysolar Ask us how PNM will pay you Get SunPower More Energy For Life Creative Commons Licence You can copy some of the articles inking always the source http www sunearthtools com solar payback photovoltaic php Home gt Solar tools gt Photovoltaic payback gt Albuquerque Solar experts positiveenergysolar com Ask us how PNM will pay you Get SunPower More Energy For Life Photovoltaic payback Economic analysis of a photovoltaic system with the determination of payback and chart Enter data of the photovoltaic energy then the data estimated cost of the plant then Data eletrica bill Verifying the results of operations in the graph and table Repeat the data entry when you have more accurate and definitive System PV Own consumption energy Peak power Wp M
8. Y pe QKK am 2a ee k eS w EL a Was E K Wan S m n pu 7 E x 0 8 7 A a q i LLL r m aca n me 4 Permanent or Temporary Solution for Roof Safety e Versatile single point anchor adapts to a wide range of roof designs nm Attachment to the roof surface is quick and easy reducing installation time by more than 50 Protects the worker by maintaining secure connection to the structure in the event of a fall Protects the structure during a fall With a unique energy absorbing load distribution system LL by SPERIAN Roof Anchor Post The new versatile single point Miller Fusion Roof Anchor Post adapts to a wide range of roof designs with its innovative base plate engineered for temporary or permanent installation to the roof surface When properly installed a dependable fall protection connection is established Should a fall occur forces are reduced with its energy absorbing design to maintain a secure connection to the structure The easy to install Miller Fusion Roof Anchor Post is designed for quick set up and does not require roof pene
9. SC AR 5 LAS KAN UL 2 2 U TO j gt pe ic FRAMING amp FOUNDATION PLAN COLUMNS AT LOW END Fa Columns at Low End gt lt 2 z z lt LL o n z SOLAR STRUCTURES 345 Panda Porral 56 7 Panels Lamdacape PROPOSED STANDARDS STRUCTION CO INC 23 FOSTER ST MARTINEZ 9453 FAX 095 229 0101 BAJA Z CROSS SECTION ____ Far s Landscape 7 HHHH Ir 85 8 5 B m T Lo g E FHAMING amp FOUNDATION PLAN TEM COLUMNS AT HIGH END vrar gt amp pn 3 E u 7 E B 5 3 Eo B ES EY s b 8 x x 22 i 2 ux CROSS SECTION CROSS SECTION CHAOGS SECTION ES 3 Portrait yi Panes 2 3 amp Panele Portrait 2 eT mos S E L CROSS SECTION CROSS SECTION CHOSS EECTION Ti PanaslsLandscang Panes Landseopa S o T Pane amp Llandscape uejd a IS SiIsAjeuy Mopeus 6 6 Ad 3 xipueddy This page intentionally left blank A TOTAL NUMBER OF PV PANELS ON FRAME PANELS SHOWN 295 MOUNTED SYSTEM NC ON PITCHED ROOFS 315 MAXIMUM PANELS
10. ED 100 100 EDH 100 65 35 18 10 FD FDE 100 100 65 25 22 HFD HFDE 100 200 100 35 22 FDC 100 200 150 FCL 100 200 200 200 100 FB P 9 225 22 EDB 225 42 EDS 225 65 ED 225 100 EDH 225 200 EDC 225 65 30 18 10 FD FDE 225 100 65 25 22 HFD HFDE 225 200 100 35 22 FDC 250 65 35 18 10 JD 250 100 65 25 22 HJD 250 200 100 35 22 JDC 400 65 10 DK 400 65 35 25 10 KD 400 100 65 35 22 HKD 400 100 65 LHH 400 200 100 65 22 KDC 400 65 LCL 400 200 200 200 100 LA P 600 65 35 18 22 LGE 600 100 65 35 22 LGH 600 200 100 50 42 LGC 600 65 35 25 22 LD 600 100 65 35 25 HLD 600 200 100 50 25 LDC 600 65 35 25 22 CLD 600 100 65 35 25 CHLD 600 200 100 50 25 CLDC Notes 800A MLO requires 28 inch 711 2 mm wide box 2 100 000 based on NEMA test procedure Top feed only Requires 6 50 inch 165 1 mm deep box Not available in 12 4 and 4X enclosures 100 rated circuit breaker Requires copper bus Not available in Type 12 4 and 4X enclosures Volume 2 Commercial Distribution CA08100003E April 2014 www eaton com V2 T3 59 Pow R Line C Panelboards PRL3a Branch Circuit Breakers Ampere Interrupting Rating Symmetrical Breaker Rating 240 Vac 480 Vac 600 Vac 250 Vdc Type 15 60 10 BAB 156010 e e
11. Vehicle Maintenance pM Figure 2 Labeled Aerial Image BLAIRREMY ARCHITECTS Terre Haute IN Page 5 Site Visit Terre Haute IN 4 3 Site Constraints There is one entrance exit gate and three parking areas The northern parking area is the smallest and is centered between the building wings It is used primarily for personnel parking The south parking area is surrounded by large trees which prevents it from being a viable area for the PV panels The central parking area is the largest of the three and appears to be a good candidate for a ground mounted covered parking PV system as it is least affected by the surrounding trees Google earth Figure 3 Google Image of the Site 5 ARCHITECTURAL OBSERVATIONS 5 1 General Observations In general building exterior finishes and materials appear to be in good condition The standing seam metal roofs of the Original Reserve Center and Reserve Center Addition 2 are in good condition There aren t many roof penetrations caused by plumbing or mechanical vents The low sloped roof of Reserve Center Addition 1 also appears to be in good condition however HVAC equipment plumbing and mechanical vents are located on the roof Equipment and components on roofs act as an obstruction to photovoltaic panels BLAIRREMY ARCHITECTS Page 6 Site Visit Terre Haute IN 5 2 Roof Observations Architectural All high sloped roofs have a standin
12. 1 0 Standard value and nonflammable 33 C 1 0 Normally occupied 34 1 0 Continuity of facility service not required no environmental impact 35 1 0 36 37 0 0015 38 39 dio A lightning protection system should be installed 41 gt 42 No existing lightning prot system 43 44 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Terre Haute Lightning Protection Risk Assessment gt West Bldg Merrick From 478 Rev 6 94 3 3 Panelboards and Lighting Control Pow R Line C Panelboards O Contents Description Page Product V2 T3 7 Application Description V2 T3 8 Standards and Certifications V2 T3 10 Technical Data and Specifications V2 T3 11 Type PRL teas qued oe eee tery ee oes eae eo V2 T3 26 Type dau n t EET V2 T3 30 Type PRL18LX edd ES asas ua lgu sa V2 T3 34 esa 5 amp V2 T3 38 ta ees V2 T3 42 PRL2a LX V2 T3 46 Retrofit V2 T3 50 Type PRL06 I UC V2 T3 58 Product Selection U adam o xt eek ku nis V2 T3 59 Box Sizing and Selection ice mn V2 T3 61 NDO Ge V2 T3 62 Type PRA am eb a RES V2 T3 66 RIED Gas s
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14. Home gt Solar tools gt Photovoltaic payback gt Albuquerque Solar experts positiveenergysolar com Ask us how PNM will pay you Get SunPower More Energy For Life Photovoltaic payback Economic analysis of a photovoltaic system with the determination of payback and chart Enter data of the photovoltaic energy then the data estimated cost of the plant then Data eletrica bill Verifying the results of operations in the graph and table Repeat the data entry when you have more accurate and definitive System PV Own consumption energy Peak power Wp M Own consumption kWh y m Energy production KWh y o Cost kWh o Decay module PV e Own consumption 8083 Costs Contribution Initial cost Contribution KWh Cost KWp 9 5200 initial contribution m l _ Annual cost T Annual contribution o Final cost of disposal 971 Analysis period Bank financing Years contributions 9 Mutual interests m Years economic analysis xj Annual loan installment 0 Result Pay back years months o 1111 YTD Return 15 years 0 03 Cash balance 15 years 1913 Compound interest 15 years 0 03 Cash balance 70 years a 9 441000 gt Solar Power in Las Cruces sunspotenergy com Sunspot Solar Can Help Spin Your Electric Meter Backward Learn More T back to top gt Data Chart Table 2 SunEarthTools com 180 000
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17. wvrw solmetric com Data by Solmetric SunEye WWW solmetikca com Sky06 3 25 2014 11 46 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 197 Solar Access Annual 76 Summer May Oct 8995 Winter Nov Apr 5196 Monthly solar access Fixed Tilt 10 Azim 150 9735 98 99 9996 96 Data by Solmetric SunEye www solmetric com M Jan Mar _ Data by Solmetric SunEye www solmetric com MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Page 19 Sky07 3 25 2014 11 47 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 210 Solar Access Annual 83 Summer May Oct 8396 Winter Nov Apr 81 Monthly solar access Fixed Tilt 109 Azm 150 5255 76 76 Data by Solmetric SunEye www solmetric com Data Solmetric SunEye www solmetric com Sky08 3 25 2014 11 52 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 199 Solar Access Annual 92 Summer May Oct 97 Winter Nov Apr 84 Monthly solar access Fixed Tilt 10 Azim 1509 97 90 97 98 98 Data Solmetric SunEye www solmetric com E Data by Solmetric SunEye wvrw solmetric com
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19. Chapter VII Architectural Design Analysis Solar Photo Voltaic PV Systems in Support of Marine Force Reserves MARFORRES Terre Haute Indiana 1 Design References a International Building Code 2012 Edition b NFPA 101 Life Safety Code 2010 Edition Ga 220 Standard om Types or Building Construction 2008 Edctlon d TIS9800 01 Design Criteria e MIL HDBK 1190 Facility Design Manual f UFC 3 110 Design Architecture g AFI 32 1084 Standard Facilities Requirements Handbook h ABA Architectural Barriers Act i OSHA Occupational Safety and Health Administration Guidelines 2 General Descriptions of the Project The project is to install a Solar Photo Voltaic PV System on several burldings at the existing facility Ihe intent or this action 1s to fulfill the requirements of the National Defense Authorization Act of 2007 and Executive Order 13423 regarding renewable energy requirements 25 renewable 2025 3 Basis of Design Summary The Photo Voltaic System will be designed with evaluations of the site needs of the user and budget limitations The project is an installation of an 80 kW photovoltaic system suitable location for the PV array will be determined by shading patterns and building orientation See drawings for locations of photovoltaic panels and the Alternate Bid Item for ground mounted covered parking PV panels installed on standing seam metal or metal panel roofs will hav
20. MARCH 2014 Site Visit Terre Haute IN TABLE OF CONTENTS 1 EXECUTIVE SUMMARY 3 2 PROJECT LOCATION AND FIELD VISIT SCHEDUILE 3 2 EE 6 OC ANON 3 2 2 Field Visit 5 nnn 3 2 FIELD VISIT NO IESS S e uuu IER MINE 3 Field VISHA 3 3 2 General Meeting 3 4 CIVIL SITE OBSERVATIONS 4 4 1 General 4 4 2 Site Access and 4 3 TETTE T OTT 6 5 ARCHITECTURAL OBSERVATIONS 6 21 ener 6 5 2 Roof Observations 7 5 3 Limited Floor Plan Observation 7 6 ELECTRICAL OBSERVATIONS 8 6 1 General 8 62 Rool Observations Electrical carnea certa l int ette oou ue nt 8 lt 8 64 D NU NUR 8 7 STRUCTURAL OBSERVATIONS 1 9 8 GALLEN
21. MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Page 20 Sky09 3 25 2014 11 54 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 188 Solar Access Annual 88 Summer May Oct 95 Winter Nov Apr 76 _ Data by Solmetric Suakye www solaeirit c m Sky10 3 25 2014 11 55 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 189 Solar Access Annual 89 Summer May Oct 91 Winter Nov Apr 83 Monthly solar access Fixed Tilt 109 Azim 150 Qn 32 54 9496 243 939 S100 Oct Dec Data by Solmetric SunEye www solmetriccom 83 Lz Data by Solmetric SunEye www solmetric com MFR Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Page 21 Sky11 3 25 2014 11 57 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 211 Solar Access Annual 94 Summer May Oct 95 Winter Nov Apr 94 Monthly solar access Feed Tit 10 Adm i505 96 9792 953 92 94 96 97 Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Data by Solmetric SunEye www Solmetric com Sky12 3 25 2014 11 58 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 206 Solar Access Annual 9595 Sum
22. 42 60 00 1524 0 20 00 508 0 5751461 YS2060 1120605 7 20608 gt EZT2060SorF 225A Main lugs or EDB EDS ED 18 36 00 914 4 20 00 508 0 575 1461 YS2036 1120365 orF EZB2036R EZT2036SorF in break EDH FD HFD 30 4800 12192 20 00 508 0 575 146 1 YS2048 LT2048S orF EZB2048R EZT2048S or F 42 48 00 1219 2 20 00 508 0 575 1461 YS2048 1720485 orF EZB2048R EZT2048S F Main lugs or main FD FD 18 48 00 1219 2 20 00 508 0 5 75 146 1 YS2048 1720485 orF EZB2048R EZT2048S F breaker with 225A EDS ED EDS ED throughfeed lugs or EDH EDH 30 60 00 1 524 0 20 00 508 0 5 75 1 46 1 YS2060 1720605 orF EZB2060R EZT2060S or F sub feed breaker 42 60 00 1524 0 20 00 508 0 5751461 YS2060 LT2060SorF EZB2060R EZT2060S or F 400A Main breaker DK KD HKD 18 48 00 1219 2 20 00 508 0 5 75 146 1 YS2048 1720485 orF EZB2048R EZT2048S F KDC LHH V 30 60 00 1524 0 20 00 508 0 5 75 1461 YS2060 LT2060S orF EZB2060R EZT2060S F 42 60 00 1524 0 20 00 508 0 5 75 1461 YS2060 1720605 orF EZB2060R EZT2060S F Main lugs or main DK KD HKD FD 18 60 00 1524 0 20 00 508 0 5 75 1461 YS2060 1120605 orF EZB2060R EZT2060S F breaker with 225A KDC LHH EDS ED through feed lugs or V EDH 30 60 00 1524 0 20 00 508 0 5 75 146 1 YS2060 1720605 orF EZB2060R EZT2060S F sub feed breaker 42 72 00 1828 8 20 00 508 0 5 75 146 1
23. C 300 29 4 21 7 8 9 2 2 3 9 6 7 5 0 2 2 8 3 18 9 306 30 6 Record High C 2 7 23 3 29 4 31 7 33 9 38 9 40 0 38 9 37 8 32 2 27 2 23 3 40 0 Heating Degree Days 681 551 407 210 92 0 3 32 188 367 587 3119 Cooling Degree Days 0 0 0 0 o3 118 179 144 59 10 0 0 563 Relative Humidity 75 74 70 66 67 68 73 75 74 72 76 78 72 Wind Speed _ 47 46 51 47 41 37 33 31 34 5 44 46 41 in kWhinr day amp 9 based 18 3 65 F 2010 by American Technical Publishers Inc All rights reserved MFR Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Report Page 25 Appendix PV Module Space Calculation Flat Roof Terre Haute Terre Haute IN 80kW Photo Voltaic Array PV Designer Heport Appendix A 00 a M Jer RICK Engineering Calculation Sheet Date 04 25 2014 Bv ROT LIC BuitDiNE suLturints Contract 62018326 Calculation No 8326 Terre Haute Subject Marine Corps Reserve Training Center PV Module Row Space Calculation Terre Haute Indiana The purpose of this calculation is to determine the minimum distance separation between modules when placed in rows for flat roof applications Treating a row as a shading obstruction to the row behind it the following formula will calculate the minimum distance between rows to avoid shading d p x cos uy u tana Where d minimum row separation distance in ft p row height in w azim
24. Connector MCA Module efficiency 16 40 Fire rating UL 790 Class C 0 6 15 3 VERSION 2 5 FRAME Compatible with both Top Down and Bottom mounting methods dr Grounding Locations 4 corners of the frame 4 locations along the length of the module in the extended flanget Independently created PAN files now available Ask your account manager for more information SW 01 6005US 08 2013 Enphase Microinverters L nphase M250 The Enphase M250 Microinverter delivers increased energy harvest and reduces design and installation complexity with its all AC approach With the M250 the DC circuit is isolated and insulated from ground so no Ground Electrode Conductor GEC is required for the microinverter This further simplifies installation enhances safety and saves on labor and materials costs The Enphase M250 integrates seamlessly with the Engage Cable the Envoy Communications Gateway and Enlighten Enphase s monitoring and analysis software PRODUCTIVE SIMPLE RELIABLE Optimized for higher power No GEC needed for microinverter 4th generation product modules No DC design or string calculation More than 1 million hours of testing Maximizes energy production required and 3 million units shipped Minimizes impact of shading Easy installation with Engage Industry leading warranty up to 25 dust and debris Cable years e enphase C US Enphase M250 Microinverter DATA
25. Power Controlled max THERMAL CHARACTERISTICS NOCT 46 C TCI 0 004 TC 0 30 K TC bm 0 45 Operating temperature 40 to 85 1000 W m 800 W m lt 600 W m 3 400 W m E gt 200 W m 100 W m SS Module voltage V Ve x 4 37 44 951 11 33 288 41 30 1050 Version 2 5 frame 65 94 1675 bottom mounting holes 1 22 31 All units provided are imperial SI units provided in parentheses SolarWorld AG reserves the right to make specification changes without notice Minor reduction in efficiency under partial load conditions at 25 C at 200 W m 100 2 of the STC efficiency 1000 W m is achieved COMPONENT MATERIALS Cells per module 60 Cell type Mono crystalline Cell dimensions 6 14 in x 6 14 in 156 mm x 156 mm Front Tempered glass EN 12150 Frame Clear anodized aluminum Weight 46 7 Ibs 21 2 kg SYSTEM INTEGRATION PARAMETERS Maximum system voltage SC 1000 V Max system voltage USA NEC 600V Maximum reverse current 16 A Number of bypass diodes 3 113 psf downward UL Design Loads Two rail system 64 psf upward 170 psf downward UL Design Loads Three rail system 64 psf upward IEC Design Loads Two rail system 50 psf upward Please refer to the Sunmodule installation instructions for the details associated with these load cases ADDITIONAL DATA Power sorting 0 Wp 5 Wp J Box IP65
26. 120 000 60 000 8 T aus totop Content Data Chart Table 99999990999999999999900090999999909999009090999999099009999999099990990099999999099990900090999999900909009099099999999009990909909909090909900999999909990090909999099090090900909909999990909000099090909099090000900999990909099090009099990999099 Warning number format expects parameter 1 to be double string given in home mhd 01 www sunearthtools com htdocs dp utility ajaxDP php on line 728 year flow revenue Prod cos Loan vro 7 29 2014 S 99uS 1ND pue 5 21 2 4 xipueddy Engineering Calculation Sheet Date 7 30 2014 Sheet 1 of 1 noo MERRICK 777 on e Contract O00 amp COMPANY By staff Chk d staff Subject Solar PV Systems MARFORRES Terre Haute IN i Lightning Protection Risk Assessment North Bldg d d db ____ EN LIGHTNING PROTECTION RISK ASSESSMENT CALCULATION 2 3 4 Per NFPA 780 2011 Edition Annex L Lightning Risk Assessment the tolerable lightning strike 5 frequency Nc is compared with the expected lightning frequency Nd The result of this comparison is 6 used to decide if a lightning protection system is needed If NdsNc a lightning protection system can be 7 optional If Nd gt Nc a lightning protection system should be provided 8 9 LIGHTNING STRIKE FREQUENCY N 10 11 NJ AJ C 107 12 the yearly lightning s
27. Atlanta GA 30318 For further information Info renusolamerica com Toll free 1 877 847 8919 Fax 1 678 669 2743 Submit orders to Order renusolamerica com Complete General Terms and Conditions of Sale and product warranties are listed in the following pages Questions Call 1 877 847 8919 or email RSA PL42013 gt 2 IS f vi LA V 1 1 1 2 2 1 2 2 2 3 3 1 3 2 3 3 3 4 enusol ILI 2 General Terms amp Conditions of Sale GENERAL PROVISIONS All sales of the products and services of Renusol America Inc Supplier to buyers Customer Supplier and Customer are referred to individually as a Party or jointly as the Parties of Renusol America Inc brand products are subject to these general terms and conditions of sale this Agreement No order will be accepted by Supplier until Customer has indicated in writing on a Sales Order Confirmation form referred to below that it has agreed to the terms of this Agreement ORDER PLACEMENT A sales quotation given in response to any request is for the potential Customer s reference only and is not legally binding on either Party unless otherwise expressly stated therein All orders for the Renusol mounting systems and related accessories the Product manufactured assembled otherwise distributed by Supplier must be received on a Purchase Order form selected by Customer or Supplier All orders mus
28. Den MERRICK BUILDING QUALITY SOLUTIONS Engineering Calculation Sheet Subject Marine Corps Reserve Training Center PV Module Row Space Calculation Terre Haute Indiana height distances 3pm Distance tan T height 2 38 in cosh oam z distances 944 heighta tan o Distance 2 at 9 00am distances 7 08 1 U distance 3pm height tan a Distance 2 at 3 00pm distance 3pm 7 08 1 max distance3 distances 3pm Worst case distance for Distance 2 d 7 08 Total Maximum distance due to roof slope Distance 2 Distance 1 Date 04 25 2014 By ROT Contract 62018326 Calculation No 8326 Terre Haute Appendix B Catalog Cut Sheets Terre Haute Terre Haute IN 80kW Photo Voltaic Array PV Designer Heport Appendix B qi UU v e N TUV Power controlled pe si 1 TUVRheinland Lowest measuring tolerance in industry M gt gt 2 8 000002 Every component is tested to meet 3 times IEC requirements RELIABLE e 6 LOAD 5400 Pa e Designed to withstand heavy accumulations of snow and ice Sunmodule Plus Positive performance tolerance 25 year linear performance warranty and 10 year product warranty B WARRANTY e teste Periodic Inspection Power Controlled KJA
29. INPUT DATA DC M250 60 2LL S22 S23 S24 Recommended input power STC 210 300 W Maximum input DC voltage 48 V Peak power tracking voltage 27 V 39 V Operating range 16 V 48 V Min Max start voltage 22 V 48 V Max DC short circuit current 15 Max input current 9 8A OUTPUT DATA AC 9208 9240 Peak output power 250 W 250 W Rated continuous output power 240 W 240 W Nominal output current 1 15 A A rms at nominal duration 1 0 A A rms at nominal duration Nominal voltage range 208 V 183 229 V 240 V 211 264 V Nominal frequency range 60 0 57 61 Hz 60 0 57 61 Hz Extended frequency range 5 62 5 Hz 57 62 5 Hz Power factor 20 95 20 95 Maximum units per 20 A branch circuit 24 three phase 16 single phase Maximum output fault current 850 mA rms for 6 cycles 850 mA rms for 6 cycles EFFICIENCY CEC weighted efficiency 240 VAC 96 596 CEC weighted efficiency 208 VAC 96 096 Peak inverter efficiency 96 5 Static MPPT efficiency weighted reference EN50530 99 4 Night time power consumption 65 mW max MECHANICAL DATA Ambient temperature range Operating temperature range internal Dimensions WxHxD Weight Cooling Enclosure environmental rating FEATURES Compatibility Communication Integrated ground Monitoring Compliance 40 C to 65 40 to 85 C 171 mm x 173 mm x 30 mm without mounting bracket 2 0 kg Natural convection No fans Outdoor NEMA 6 Co
30. Submitted On Aug 13 2014 1 0 Evaluation For Information Only The J boxes are shown on the typical detail but would not fit and be legible on the plan views The voltage drop calcs uses where I feel the J boxes will be placed and give a Worst case scenario The inverter will have to be located next to the module it feeds so this will not change With he use of less than what the manufactuer sugests as well a temperature correction factor this will give the contractor some flexability in where they are located Submitted By Francis Oakes 678 281 0907 Submitted On Aug 18 2014 Backcheck not conducted Current Comment Status Comment Open 5762648 Architectural Cost Estimate n a n a n a Comment Classification Public Public Please confirm the number of modules on the Drawing adds up to the proposed KW Alternate Covered Parking locations to replace the roof mounted modules shown on the Site Plan may be required Please contact Justin Runnels 225 573 5024 for more information Submitted By Justin Runnels 2255735024 Submitted On Aug 13 2014 1 0 Evaluation Concurred Design team confirmed the number of panels adds up to the proposed KW Submitted By Bernard Braddick 405 340 9503 Submitted On Aug 18 2014 Backcheck not conducted Current Comment Status Comment Open 5762649 Electrical Plans n a n a PV Array Load Comment Classification For Official Use Only FOUO Revisit Panel schedules to verify loads V A per array 15
31. YS2072 LT2072SorF EZB2072R EZT2072SorF Main breaker with 400A DK KD HKD DK KD 18 72 00 1828 8 20 00 508 0 575 1461 YS2072 LI2072SorF EZB2072R 2720725 through feed lugs or KDC LHH HKD KDC sub feed breaker V V 30 72 00 1828 8 20 00 508 0 575 1461 YS2072 1720725 EZB2072R EZT2072SorF 42 90 00 2286 0 20 00 508 0 575 1461 YS2090 LT2090S orF EZB2090R 2720905 F Note 0 Smaller panelboard box sizes are available if required Contact Eaton for application information Volume 2 Commercial Distribution CA08100003E April 2014 www eaton com V2 T3 29 qi UU v e N TUV Power controlled pe si 1 TUVRheinland Lowest measuring tolerance in industry M gt gt 2 8 000002 Every component is tested to meet 3 times IEC requirements RELIABLE e 6 LOAD 5400 Pa e Designed to withstand heavy accumulations of snow and ice Sunmodule Plus Positive performance tolerance 25 year linear performance warranty and 10 year product warranty B WARRANTY e teste Periodic Inspection Power Controlled KJA VVorld class quality Qualified IEC 61215 2 Fully automated production lines and seamless monitoring of the process and material VAN a as A ensure the quality that the company sets as its benchmark for its sites worldwide c lt a U
32. circuits that contain the maximum allowable microinverters This is due to high inherent voltage rise on the branch circuit For more information refer to the Vo tage Drop Calculations Application Note at http www enphase com support downloads b Install an outdoor rated weather proof junction box at a suitable location on the PV racking system typically at the end of a row of modules c Provide an AC connection from the junction box back to the utility interconnection using equipment and practice as required by the NEC and local jurisdictions Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b joe G Y Step 3 Position the Enphase Engage Cable Many modules have a central stiffening brace In these cases OTIC do not position the connector and microinverter at the exact center of the PV module but position the cable so that connectors do not conflict with the braces a Lay the cabling along the route it will travel positioning the connectors so that they align with the PV modules b Module widths vary by manufacturer On the Engage Cable connectors are spaced at intervals to allow for the widest PV modules compatible with Enphase Microinverters If narrower modules are used it may be necessary to account for excess cable by adding a loop of cable at suitable intervals Step 4 Attach the Microinverters to the Racking a Mount the microinverters according to the microinverter manu
33. eS w EL a Was E K Wan S m n pu 7 E x 0 8 7 A a q i LLL r m aca n me 4 Permanent or Temporary Solution for Roof Safety e Versatile single point anchor adapts to a wide range of roof designs nm Attachment to the roof surface is quick and easy reducing installation time by more than 50 Protects the worker by maintaining secure connection to the structure in the event of a fall Protects the structure during a fall With a unique energy absorbing load distribution system LL by SPERIAN Roof Anchor Post The new versatile single point Miller Fusion Roof Anchor Post adapts to a wide range of roof designs with its innovative base plate engineered for temporary or permanent installation to the roof surface When properly installed a dependable fall protection connection is established Should a fall occur forces are reduced with its energy absorbing design to maintain a secure connection to the structure The easy to install Miller Fusion Roof Anchor Post is designed for quick set up and does not require roof penetration to sub surface rafters or trusses 1275 Versatile sing
34. info renusolamerica com RSA PL42013 R us ol VS Solar PV Mounting System For Pitched Roof Applications FEATURES A End Clamp Clamp range from 30 to 50mm Fits 9776 of all modules L Foot Insert anywhere without sliding Offset T bolt slot for easier mounting or fastening Bolt alignment indicator ensures proper alignment The Renusol VS system provides a simple fast and cost effective mounting solution for PV modules on pitched roofs Just one end clamp and one mid clamp part number simplifies inventory and project planning Pre assembled clamps fastener free splice connectors and slide free C Mid Clamp L feet minimize installation time Clamp range 30 to 50mm Fits 97 of all modules WEEB CCR provides continuous Stainless steel hardware and 6000 series aluminum rails provide strength grounding of panels to rails and long product life Anti slip hardware and bolt alignment indicators ensure installation confidence High strength to weight ratio rail design keeps cost low while allowing long spans 2521 WEEB CCR offers continuous grounding of panels to rails z gt D Splice Connector Presets rail gaps for thermal expansion About Renusol No fastening equals quick installation Renusol America is a leading innovator in flat roof and pitch roofed mounting systems for Solar PV modules in the US solar industry Renusol America provides sa
35. 01 and ENV 120 02 Power line communication bridge pair Included with ENV 120 01 Wireless N USB adapter 802 11b g n Included with ENV 120 02 POWER REQUIREMENTS AC supply 120 VAC 60 Hz Power consumption 2 5 watts typical 7 watts maximum CAPACIT Y Number of microinverters polled Hecommended up to 600 MECHANICAL DATA Dimensions WxHxD 222 5 mm x 112 mm x 43 2 mm 8 8 x 4 4 x 1 7 Weight 340 g 12 02 Ambient temperature range 40 to 65 40 to 149 F Cooling Natural convection no fans Enclosure environmental rating Indoor NEMA 1 FEATURES Standard warranty term Two years Compliance UL 60950 1 EN 60950 1 CSA22 2 No 60950 1 and IEC 60950 1 FCC Part 15 Class B available System level production data To learn more about Enphase Microinverter technology e en phase visit enphase com ENERGY 2014 Enphase Energy All rights reserved All trademarks or brands in this document are registered by their respective owner This page intentionally left blank Ije j 5 xipueddy This page intentionally left blank FREESTANDING COUNTERWEIGHT ANCHOR Freestanding Anchor Does Not Require Attachment to Working Surface and Provides a Safe and Versatile Fall Arrest Rated Tie Off Point FREESTANDING COUNTERWEIGHT ANCHOR Safe and Secure Anchor The freestanding counter weight anchor provides a tie off point for personnel performing work on flat ro
36. 1 3 9 4 4 5 1 5 6 5 8 5 8 5 7 5 3 4 5 3 1 2 6 4 6 Lat Minimum 2 3 2 8 3 6 4 2 4 7 5 3 5 2 5 0 4 5 3 4 2 2 1 8 4 3 Maximum 4 0 4 8 5 2 6 2 6 6 6 9 6 4 B G 6 2 5 4 4 3 3 5 5 1 Average 3 3 4 0 4 3 4 7 4 9 5 0 5 1 5 2 5 1 4 5 3 2 2 7 4 3 Lat 15 Minimum 24 2 8 3 5 3 9 4 2 4 6 4 5 4 6 4 3 3 4 2 2 1 9 4 1 Maximum 4 3 5 0 5 1 5 7 5 8 5 9 5 6 5 9 5 9 5 4 4 5 3 8 4 8 3 0 3 5 3 2 3 0 2 7 2 6 2 7 3 1 3 5 3 6 2 8 2 5 3 0 90 Minimum 2 1 2 4 2 5 2 5 2 4 2 4 2 5 2 7 2 9 2 6 1 8 1 6 2 8 Maximum 4 1 4 6 3 8 3 6 3 1 2 8 2 9 3 5 4 1 4 4 4 1 3 7 3 3 SOLAR RADIATION FOR 1 AXIS TRACKING FLAT PLATE COLLECTORS WITH NORTH SOUTH AXIS Axis Tilt Jan Feb Mar Apr May Jun Jul Aug Sep Oct Mov Dec Year Average 2 7 3 7 4 7 6 2 7 5 8 2 8 1 7 4 6 1 4 5 2 7 2 1 5 3 07 Minimum 2 0 2 8 3 8 4 9 6 1 7 2 6 9 5 4 5 1 3 4 1 9 1 5 5 1 Maximum 3 4 4 6 5 7 7 9 9 1 10 4 9 2 8 9 7 2 5 4 3 8 28 6 1 Average 33 43 5 2 6 5 7 6 8 2 8 1 77 66 5 2 3 3 27 57 Lat 15 Minimum 24 3 1 4 2 5 1 8 1 7 2 5 9 5 6 5 5 3 8 2 2 1 8 5 4 Maximum 4 3 6 3 8 4 9 3 10 4 9 3 9 3 7 9 6 4 4 7 3 7 6 6 Average 3 6 4 6 5 3 6 5 74 79 7 8 75 67 55 35 29 58 Lat Minimum 2 5 3 2 4 2 4 9 5 9 6 9 6 7 6 4 5 5 3 9 2 3 1 9 5 4 Maximum 4 7 5 8 6 4 8 4 9 0 10 0 9 0 9 1 8 0 6 7 5 1 4 1 6 6 Average 37 47 52 62 68 73 73 71 65 55 38 30 56 Lat 15 Minimum 2 6 3 2 4 1 4 7 5 6 6 4 6 2 6 1 5 3 3 9 2 4 2 0 5 3 Maximum 4 9 5 9 6 4 8 1 8 5 9 3 8 4 8 7 7 8 6 7 5 3 4 3 6 4 SOLAR RADIATION FOR 2AXIS TRACKING FLAT
37. 100 225 42 EDS 100 225 65 ED 100 225 100 EDH 100 225 200 EDC Notes 0 50A devices are available as two pole only Single pole breaker rated 120 Vac 9 Two pole breaker rated 120 240 Vac Arc fault circuit breaker HID High Intensity Discharge rated breaker Switching Neutral Breaker single pole device requires two pole space two pole device requires three pole space Solenoid operated breaker Single pole breaker rated 277 Vac For use on 480Y 277V systems only AIC rating for two and three pole breakers only Maximum of six breakers per panel 175 225 9009239 Volume 2 Commercial Distribution CA08100003E April 2014 www eaton com Box Sizing and Selection Approximate Dimensions in Inches mm Panel Layout Instructions 1 Select a Required mains lugs or breaker b Neutral where required c Branch circuits as required 2 Layout panel as shown below using appropriate X dimensions 3 Using total X units panel height find box height in inches mm and box catalog number from table below When total X units come out to an uneven number use next highest number i e if total X comes out 25X use 31X Layout PRL3a Poles 6 3X QBHW OBCAF 12 5X BAB
38. 5 Company Dunlap associates Date Thu May 29 14 Address 3340 Blue Springs Rd 503B Country United States State Georgia Zip 30144 Load Generator Report Common Seismic Data Basic System Category Building Frame Systems Basic System Buckling restrained braced frames moment resisting beam column connections Building height limits for Seismic Design Categories ft F NL NL 160 160 100 Design Coefficients and factors R Omega Cd CT X Site Class 8 2 5 5 0 028 0 8 C Design Requirements Ss g 51 Fv TL sec 33 136 11 354 1 Calculated 12 Loads Part Live Ld Partition Ld Equipment Ld Part Snow Ld Floor Area ft Dead Ld psf psf psf 4 pst psf Roof 1800 60 0 000 10 0 000 0 000 Snow Data Ground Snow Load psf 20 Roof Surface Type All Other Surfaces Terrain Category and Roof Exposure Roof Exposure Fully Exposed Terrain Category C Thermal Condition R value between the ventilated space and the heated space exceeds 25 F x h x ft Btu 4 4 K x Structures kept just above freezing and others with cold ventilated roofs in which the thermal resistance m2 W ASI SteelSmart amp System 7 0 Version 7 0 0 160 Page 2 5 Dunlap assoc
39. 847 1 900 oj 043 _ 208 62 2000 oj 050 sena assa nee 1n 2109 oj 057 2 rer rarer r oj aereo Jese ez esae 200 oj 069 vazon 0292 2 oj 074 _ __ 25 oj 079 eser sosra1 Jese ea zones 2500 oj 055 N e N N to 198 939 226 791 254 504 189 209 161 496 BB N e 0 A N N N 1 00 1 10 20 30 40 0 60 a o D gt e 1 N N olo NJN NIN gt NJ O N cj cj 79 183 336 817 52 017 363 983 24 985 391 015 1 913 417 913 9 897 425 897 17 880 433 880 N cO cO e 1 e N N N O 1 N N AIR 1 N 1 1 N co olo NJ A 1 1 sje o o f of N Nj oj aj gt NI e e
40. BAB H 70 10 29 BAB 70 10 BAB H 80 100 10 BAB 80 100 10 BAB H 15 50 10 29 QBGF 15 50 10 OBGFEP 15 20 10 99 OBCAF 15 60 10 29 BAB D 15 30 10 23 BAB C 15 30 109 BABRP 15 30 109 BABRSP 15 60 22 OBHW 15 60 22 OBHW H 70 22 OBHW 70 22 OBHW H 80 100 22 OBHW 80 100 22 OBHW H 15 30 22 QBHGF 15 30 22 QBHGFEP 15 20 22 OBHCAF 15 20 65 14 GHO 15 20 65 14 14 GHB V2 T3 60 PRL3a Branch Circuit Breakers continued Ampere Interrupting Rating kA Symmetrical Breaker Rating 240 Vac 480 Vac 600 Vac 250 Vdc Type 25 60 65 14 14 GHB 70 100 65 14 14 GHB 15 30 65 28 HGHB 15 20 65 14 14 GHORSP 15 30 65 14 9 14 GHBS 15 60 14 GHBGFEP 15 20 14 GHBHID 15 60 18 14 10 EHD 70 100 18 14 10 EHD 15 60 18 V14 14 10 FDB 70 100 18 14 14 10 FDB 110 150 18 14 14 10 FDB 15 60 65 35 18 10 FD FDE 70 100 65 35 18 10 FD FDE 110 225 65 35 18 10 FD FDE 15 60 100 65 25 22 HFD HFDE 70 100 100 65 25 22 HFD HFDE 110 225 100 65 25 22 HFD HFDE 15 60 200 100 35 22 FDC 70 100 200 100 35 22 FDC 110 225 200 100 35 22 FDC 100 25 2 e e EDBO
41. May 29 14 Address 3340 Blue Springs Rd 503B Country United States State Georgia Zip 30144 Load Generator Report Wind Load in Y Direction Windward Cp 0 8 Leeward Cp 0 3 Side wall Cp 0 7 Height Windward Windward Leeward Leeward Side wall Side wall ft P GCpi psf P GCpi psf P GCpi psf psf psf psf 5 835 12 116 21 108 10 865 1 873 19 358 10 366 11 67 12 116 21 108 10 865 1 873 19 358 10 366 Roofs Parallel to ridge wind load values Horizontal Distance ft P GCpi psf P GCpi psf 0 9246 to h 2 24 127 15 135 0 8777 h 2 to h 23 131 14 139 0 5223 h to 2h 15 584 6 592 0 3445 gt 2h 11 811 2 819 Normal to ridge wind load values Windward wind load values Cp P GCpi psf P GCpi psf 0 1158 2 037 6 955 0 3772 12 505 3 513 c Em ELEVATION Note Illustration may not represent actual building roof type Leeward wind load values Cp P GCpi psf P GCpi psf 0 5687 16 570 7 578 Story Lateral Load Lateral Wind Load in X Direction Lateral Wind Load in Y Direction Floor Designer sur Lateral Load Ibs Floor DESIN Pressure Lateral Load Ibs psf psf Roof 27 227 17812 38 Roof 22 981 6422 817 Total 17812 38 Total 6422 82 Seismic Output ASI SteelSmart amp S
42. Own consumption kWh y m Energy production KWh y o Cost kWh o Decay module PV e Own consumption 8083 Costs Contribution Initial cost Contribution KWh Cost KWp 9 5200 initial contribution m l _ Annual cost T Annual contribution o Final cost of disposal 971 Analysis period Bank financing Years contributions 9 Mutual interests m Years economic analysis xj Annual loan installment 0 Result Pay back years months o 1111 YTD Return 15 years 0 03 Cash balance 15 years 1913 Compound interest 15 years 0 03 Cash balance 70 years a 9 441000 gt Solar Power in Las Cruces sunspotenergy com Sunspot Solar Can Help Spin Your Electric Meter Backward Learn More T back to top gt Data Chart Table 2 SunEarthTools com 180 000 120 000 60 000 8 T aus totop Content Data Chart Table 99999990999999999999900090999999909999009090999999099009999999099990990099999999099990900090999999900909009099099999999009990909909909090909900999999909990090909999099090090900909909999990909000099090909099090000900999990909099090009099990999099 Warning number format expects parameter 1 to be double string given in home mhd 01 www sunearthtools com htdocs dp utility ajaxDP php on line 728 year flow revenue Prod cos Loan vro 7 29 2014 online calculator economic return of a pho
43. PARTICULAR PURPOSE AND MAKES NO OTHER WARRANTY EXPRESS OR IMPLIED EXCEPT AS IS EXPRESSLY SET FORTH HEREIN This Warranty is expressly subject to Seller s General Terms and Conditions of Sale which are incorporated herein by reference This Warranty extends only to claims of the original Buyer and third parties shall have no rights or benefits under this Warranty This Warranty is non assignable and non transferable without the written consent of the Seller RSA 2 15 2012 info renusolamerica com RSA PL42013 Renusol America Inc 10 Year Limited Product Warranty for Renusol VS Renusol America Inc Seller warrants to the original buyer Buyer that this product s Product shall be free from defects in material and workmanship If the Product or any of its components is found defective during the Warranty Period Seller will repair or replace at Seller s sole discretion the Product or component with the same or a similar model which may be a reconditioned unit without charge for parts or labor This warranty Warranty shall be in effect for a period of ten 10 years from the earlier of i the date that the initial installation of the Product is completed or ii 30 days after the purchase of the Product by the Buyer the Warranty Period However for specified components generally or for a particular type of use of certain components the term of the warranty may be shorter as expressly specified or provided for by
44. Seller s individually generated plans for the pertinent project If a shorter warranty is specified as to any component or if an exchange of a component is otherwise scheduled within a shorter period the Warranty Period shall be restricted to such specified shorter period If you need service under this Warranty you must prior to the lapse of the Warranty Period file a claim together with proof of purchase and confirmation from you that you are the original purchaser of the Product with Seller This Warranty is conditioned upon your reasonably cooperating with Seller in the evaluation of your claim and the implementation of any remedy Seller s obligation to perform under this Warranty shall not apply if i installation of the Product is not performed in accordance with Seller s written installation instructions and design specifications therein as well as generally recognized standards and principles of building and constructions work ii the Product has been modified repaired or reworked in a manner not previously authorized in writing by Seller iii the Product has been utilized or handled in a manner that is inconsistent with any written instructions provided to the Buyer by the Seller iii the Product is installed in an environment for which it was not designed or which contains corrosive atmospheric conditions including without limitation chemical fumes salt water and wind blown sand or iv Buyer does not pay all invoices p
45. SunEye wvrw solmetric com n Data by Solmetric SunEye wvrw solmetric com MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer 17 Sky03 3 25 2014 11 44 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 191 Solar Access Annual 90 Summer May Oct 90 Winter Nov Apr 91 Monthly solar access Fixed Tilt 10 Azim 150 95 i 95 Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Data by Solmetric SunEye www solmetric com Sky04 3 25 2014 11 45 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 183 Solar Access Annual 71 Summer May Oct 74 Winter Nov Apr 66 Monthly solar access Fixed Tilt 10 Data by Solmetric SunEye www solmetric com Data by Solmetric SunEye www solmetric com MFR Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Report Page 18 Sky05 3 25 2014 11 45 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 202 Solar Access Annual 85 Summer May Oct 92 Winter Nov Apr 71 Monthly solar access Fixed Tilt 109 Azim 150 94u 98 3796 37 95 9156 6535 605 56 ulli Jan Feb Mar Apr May Oct Nov Dec Data i by Solmetric SunEye
46. Swa NOLONNS ANNOHI TVALNIN 31IHM 318 C1 11 22 18 318 2 3SVHdN3 141 00013 Rev 030 Copyright Enphase Energy Inc 2011 Page 26 EUG Y Enphase Energy Inc 201 1 Street Petaluma CA 94952 Phone 707 763 4784 TOLL FREE 877 797 4743 Fax 707 763 0784 www enphase com info enphaseenergy com Envoy Communications Gateway Envoy Communications Gateway The Enphase Communications Gateway provides network access to the solar array enabling comprehensive monitoring and management of an Enphase system Solar professionals and system owners can easily check the status of their Enphase System using the Envoy s LCD display or get more detailed performance data via Enlighten Software included with purchase of Envoy SMART SIMPLE SCALABLE Includes web based monitoring Plug and play installation Residential or commercial ready out and control Flexible network configuration of the box Integrates with smart energy devices No additional AC wiring required Supports up to 600 microinverters Automatically upgrades and sends performance data R G Y C US Envoy Communications Gateway DATA INTERFACE Power Line Communications Enphase proprietary Local Area Network LAN 10 100 auto sensing auto negotiating 802 3 LAN CONNECTION OPTIONS Cable Assembly Ethernet RJ45 Orange 10ft Included with ENV 120
47. Using a DC current probe verify there is no current flowing in the DC wires between the PV module and the microinverter NOTICE Care should be taken when measuring DC currents due to the fact that most clamp on meters must be zeroed first and tend to drift with time 4 Disconnect the PV module DC wire connectors from the microinverter 5 Remove the microinverter from the PV array racking 6 The microinverter connectors are tool removable only The installation kit includes a disconnect tool with two prongs To disconnect a microinverter from the cabling system insert these two prongs into the two holes in the cable connector Squeeze the sides of the disconnect tool to engage with the connector Rock the connector back and forth while pulling gently to disengage 7 f the disconnect tool is not available a 2 Phillips screwdriver can be used in its place Insert the screwdriver into one hole rock that side of the drop connector out then insert the screwdriver into the other hole and pull the connector out entirely DANGER Risk of Electrical Shock Do not leave the drop connector uncovered for an extended period If you do not plan to replace the microinverter immediately you must cover any unused connector with a watertight sealing cap Listen for two clicks as the connectors engage Page 22 Copyright Enphase Energy Inc 2011 141 00013 Rev 03b 23 Technical Data System temperature range
48. VVorld class quality Qualified IEC 61215 2 Fully automated production lines and seamless monitoring of the process and material VAN a as A ensure the quality that the company sets as its benchmark for its sites worldwide c lt a ULT TT Blowing sand resistant S 2 000002 SolarWorld Plus Sorting Z ER Plus Sorting guarantees highest system efficiency SolarWorld only delivers modules that 2569 run XY have greater than or equal to the nameplate rated power ISO 9001 25 years linear performance guarantee and extension of product warranty to 10 years ISO 14001 SolarWorld guarantees a maximum performance degression of 0 7 p a in the course of Certified 25 years a significant added value compared to the two phase warranties common in the industry In addition SolarWorld 15 offering a product warranty which has been extended to 10 years in accordance with the applicable SolarWorld Limited Warranty at purchase www solarworld com warranty Kk kkk k KA SOLARWORLD MADE IN USA NJ solarvvorid com VVe turn sunlight into povver Appendix B Page B Sunmodule Plus sw 275 mono PERFORMANCE UNDER STANDARD TEST CONDITIONS STC PERFORMANCE AT 800 W m NOCT AM 1 5 Maximum power 275 Wp Maximum power Pos 205 0 Wp Open circuit voltage V 39 4 V Open circuit voltage V 361V Maximum power point voltage V nop 31 0 V Maximum power po
49. abeyor jesnau oj auij pue 1 ay aunseaui ENVIHOdWI 318V5 H3MOd FA OZ L L3NH31NI AOAN3 13 4 815 80 13 NOLLNBIHLSIO DV EZ H3d LINDHID 02 3104 Z L TNvd Nouf8lHlsId 5v OL gt 9 3389 1 113 JUHM Qq3snNn 3fri8 1 39 11 32 18 318V2 3SVHdN3 141 00013 Rev 03b Copyright Enphase Energy Inc 2011 Page 25 gt q E D E c gt 5 V 3SVHd 338HL 802 DPA ZE 01901 o1 SPA EZZ 0181 OI saBue uti aq pjnoys Payes 3PA 807 u 404 WYVHOVIG ONIHIM 01313 sabejjon au nustudinba sejas Aue bunjejsut o3 100d s101 n puo 931A485 0 abejjon eui pue 4 01 4 ens exe 4Nv LHOdWI TAN BS TAN Yd NOLL NEHISICI 5v Jp 319 01 ANNOYS WHLOSN 4 DH P H31nog 2 AVMaINVO 13NH31NI S AOANG NOLLO3NNOO LINHIHLI LINDYID HONVH8 H3d dWV 06 3109 amp HINVES scLZW 92 13 4 NOLLNAIHISIA DY HO N H313W OL 318V2 40 NO GITIVISNI VH UOINNIWL ye 78 ie V 2 35 8 V 3SVHd N
50. in this Agreement constitute the entire agreement between the Parties regarding the subject matter contained herein and shall supersede all previous oral or written agreement s between the Parties To the extent any other document including a Purchase Order is inconsistent with the terms of this Agreement the terms of this Agreement shall prevail unless expressly acknowledged in the Sales Order Confirmation 6 WARRANTY AND LIMITATION OF LIABILITY 6 1 The warranty terms are set forth in the accompanying document titled Renusol America Inc 10 Year Limited Product Warranty for Renusol VS and or Renusol America Inc 25 Year Limited Warranty for Renusol CS60 Renusol America Inc General Terms amp Condition 2 15 2012 Page 2 of 3 Initial info renusolamerica com RSA PL42013 4 j Renusol 7 1 7 2 8 1 itin Systems General Terms amp Conditions of Sale CHOICE OF LAW AND DISPUTE RESOLUTION Governing Law This Agreement and all documents executed and delivered in connection herewith shall be construed and enforced in accordance with the laws of the State of Georgia except with respect to conflicts of laws principles Dispute Resolution 7 2 1 X Arbitration Any disputes that cannot be resolved by the Parties themselves shall be resolved by binding arbitration in Atlanta Georgia conducted in accordance with the commercial arbitration rules of the American Arbitration Association The arbitrator s i
51. jo4n32ejnueuJ 03 Jajal se d ajnpow ay Jo v amp 01 amp 0 lt lt 0 ajnpow X jejuoziloy u 6 0 x uomaurp gt 993 s npou T Mojaq suoisuauuip y Jad sqjusuoduuo Jo y 1 Josnuay jo siseg xipueddy This page intentionally left blank IN 05532 51 MIN CLEAR Hon LA E CLY 13 Low CCPTRAIT OR LANDSCAPE CFTON L CANTILEVER O TIOMAL KANDICAP SPACE OPTIONAL V A coven i Sy CROSS SECTION _ N BSP DOWN SLOPE w SPECIFICATIONS NOTES 40 12 24 3 mi 2JRLIN SPACING TLT DZSREES VIN CLEAR HICH EWE NI W PANI ANY OR LANDSCAPE ROOF CECK CFTIONAL OPTCHAL J NDICAP SPACE 27 pease SEC TION Zj ESP BACK TO BACK SLOPED T SAJA CONSTRUCTION CO INC 223 MARTINEZ CA 94563 1 900 866 6620 SES 229 07 C PARFI E FJ3LH Y ct U B T
52. lift more than 45 Ibs 7255000 Freestanding Counterweight Anchor includes 20 3kg In some applications the entire system can be sixteen 45 Ib 20 3kg plates roof post base lifted by forklift or crane into place for instant set up and D ring and use Refer to instruction manual for complete details 7200439 Single Counterweight Only 45 Ibs 20 3kg Step 1 INT ak met oc Align rubber trays Install the L bolts Stack plates weights Set post and base Install the remaining into square pattern into the slots on the over bolts and onto onto the L bolts four plates and using notches rubber trays rubber trays and plates tighten bolts nuts Specifications Counterweight Plates Cast iron galvanized Rubber Trays Carbon steel PVC coating L Bolts Carbon steel galvanized Roof Post and Base Post is painted stainless steel the base is painted carbon steel D ring Forged steel zinc plated Standards Meets EN 795 1997 Class E requirements Capital Safety USA 800 328 6146 Canada 800 387 7484 Asia 65 6558 7758 Australia 1800 245 002 New Zealand 0800 212 505 Europe Middle East Africa 33 0 4 97 10 00 10 Northern Europe 44 0 1928 571324 www capitalsafety com info capitalsafety com 2007 Capital Safety Form 9700153 rev A m EHI RE RE 4 Je 1
53. per annum or the maximum rate permitted by applicable law may be assessed on payments received after delivery has been made from such delivery date to the date payment is received If an extension of credit has been made payment is due net the number of days set forth on the Sales Order Confirmation from the date delivery has been made the Payment Due Date An extension of credit shall be deemed to have been made whenever payment in full is not made prior to the time of delivery Failure to make payments when due or remit finance charges when assessed may result in delayed or cancelled shipments No unauthorized deductions from invoices are permitted Renusol America Inc General Terms amp Condition 2 15 2012 Page 1 of 3 Initial info renusolamerica com RSA PL42013 1 M gk usc sol General Terms amp Conditions of Sale 3 5 Customer will also be required to pay all sales or use taxes unless satisfactory evidence of re seller status or tax exempt form is provided to Supplier 3 6 Supplier reserves the right to rescind and cancel the Sales Order Confirmation at any time if Customer breaches the payment terms referred to in this Section 3 of this Agreement 3 7 The Purchase Price shall be paid in cash either by wire transfer check or other mutually agreed method Additionally to the extent lawful and if approved by Supplier all or any portion of the Purchase Price may be paid by an assignment by Customer to Suppli
54. 0030 Activation Force 1000 16 4 4 kN X10031 229 mum Maximum Capacity 310 Ibs 140 6 kg 15 6 in 26 0 in 9 56 in 396 mm 660 mm 243 mm Fusion Roof Anchor Post SKU Description Designed to Accommodate STANDING SEAM ROOFING Includes post with base and standing seam clamping assembly kit X10000 Small base Standing seam spacing from 11 75 in 298 mm to 17 in 432 X10001 Large base Standing seam spacing from 11 75 in 298 mm to 21 25 in 540 X10002 Large base amp extension bars Standing seam spacing from 11 75 in 298 mm to 24 in 610 mm METAL SHEATHING ROOFING Includes post with base and rivet kit with sealing washers and mastic tape X10010 Small base Metal sheathing w minimum thickness of 24 gauge 0 024 in 0 61 X10011 Large base Metal sheathing w minimum thickness of 24 gauge 0 024 in 0 61 mm Trapezoidal spacing of 8 in 203 mm to 20 in 508 mm in one inch 25 4 mm increments EH MEMBRANE BUILT UP ROOFING Includes post with base and toggle bolt kit X10030 Up to 5 5 in 140 mm thickness Fastens through membrane insulation amp into metal sheathing wood sheathing or concrete with a combined thickness of up to 5 5 in 140 mm X10031 gt 5 5 in 140 mm amp up to 10 5 in 267 mm thickness Fastens through membrane insulation amp into metal sheathing wood sheathing or concrete with a combined thickness of 5 5 in 140 mm up to 10 5 in 267 mm E WOOD SHEATHING
55. 03 Assembly Tool Each Kit Questions Call 1 877 847 8919 or email Renusol CS60 Ballasted Flat Roof System 10 x Renusol CS60 10 HMWPE base and mounting hardware for 10 Renusol S60 s 60 x Renusol CS60 10 HMWPE base and mounting hardware for 60 Renusol S60 s 40 x Renusol CS60 10 High Load HMWPE base and mounting hardware for 60 Renusol S60 s 10 x Renusol CS60 15 HMWPE base and mounting hardware for 10 Renusol S60 s 60 x Renusol CS60 15 HMWPE base and mounting hardware for 60 Renusol CS60 s 40 x Renusol CS60 15 High Load HMWPE base and mounting hardware for 40 Renusol CS60 s 1 x adjustable drill jig for proper hole placement 22 x 4 20 clip nut 22 x 4 20 bolt 1 0 with self locking patch 22 x 1 25 OD x 0 281 ID x washer 8 x anchor bracket assembly for roof anchoring Flashing and roof screws are NOT included These components need to be selected based on specific roof construction 1 x flexible drill shaft extension with right angled drive attachment RSA PL42013 SjRenusol 5 Solar Mounting Systems Picture Item Suggestion Solid Concrete Blocks suggested size 4 x 8 x 16 Tyco Electronics Grounding Clip Unistrut 12 gage 1 5 8x 1 5 8 strut and U shaped splice fitting Use hot dipped galvanized parts only EPDM Slip Sheet Part Number 1954381 3 Unistrut strut P1000T HG Unistrut Splice P1377 HG Variety of different manufacturers Renusol CS
56. 1 million hours of testing Maximizes energy production required and 3 million units shipped Minimizes impact of shading Easy installation with Engage Industry leading warranty up to 25 dust and debris Cable years e 9nphase 6 R G Y Appendix B Page B 3 US Enphase M250 Microinverter DATA INPUT DATA DC M250 60 2LL S22 S23 S24 Recommended input power STC 210 300 W Maximum input DC voltage 48 V Peak power tracking voltage 27 V 39 V Operating range 16 V 48 V Min Max start voltage 22 V 48 V Max DC short circuit current 15 Max input current 9 8A OUTPUT DATA AC 9208 9240 Peak output power 250 W 250 W Rated continuous output power 240 W 240 W Nominal output current 1 15 A A rms at nominal duration 1 0 A A rms at nominal duration Nominal voltage range 208 V 183 229 V 240 V 211 264 V Nominal frequency range 60 0 57 61 Hz 60 0 57 61 Hz Extended frequency range 5 62 5 Hz 57 62 5 Hz Power factor 20 95 20 95 Maximum units per 20 A branch circuit 24 three phase 16 single phase Maximum output fault current 850 mA rms for 6 cycles 850 mA rms for 6 cycles EFFICIENCY CEC weighted efficiency 240 VAC 96 596 CEC weighted efficiency 208 VAC 96 096 Peak inverter efficiency 96 5 Static MPPT efficiency weighted reference EN50530 99 4 Night time power consumption 65 mW max MECHANICAL DATA Ambient temperature range Operating temperature range inte
57. 3 Distance 3 __ Roof Slope Angle J Slope I Horizontal Tilt Angle Panel Tilt Angle Roof Slope Angle 0 10 00 deg Panel Tilt Angle in deg 2 5deg Roof Slope Angle in deg 9 0 7 Horizontal Tilt Angle in deg 7 50 deg h 39 41 in Panel Length boss 42deg Azimuth angle of the sun from due South at 9 00 AM 42deg Azimuth angle of the sun from due South at 3 00 Distance h cos B Horizontal Distance 1 Distance 39 07 1 Den MERRICK BUILDING QUALITY SOLUTIONS Engineering Calculation Sheet Subject Marine Corps Reserve Training Center PV Module Row Space Calculation Terre Haute Indiana Height 511 0 Height 6 84 1 Height h sin B Height 5 14 1 Date 04 25 2014 By ROT Contract 62018326 Calculation No 8326 Terre Haute Distance 2 is calculated based on worst case scenario from south Azimuth u 0 00 deg a 14 00 deg AM gam T distance oam Height tan a distances 15 33 i Distance 2 at 9 00am H distance 3pm Height tan o distance 3pm 15 33 1 Distance 2 at 3 00pm d maxf distance2 gam distance 3pm U 15 334 Worst case distance for Distance 2 Azimuth angle of the sun from due South at 9 00 Azimuth angle of the sun from due South at 3 00 PM
58. 3 5242 Fax 800 892 4078 S uiuiui millerfallprotection com 2000 SGS uDiseg pajejouuv xipuaddy This page intentionally left blank Public SBU FOUO Comment Report All Comments Project MARFORRES PV Systems Design Review Terre Haute Design Analysis 35 Submittal Displaying 8 comments for the criteria specified in this report Id Discipline DocType Spec Sheet Detail 5762643 Electrical Plans n a n a PV Panel Conductors Comment Classification For Official Use Only FOUO Please provide details 1n Plans and DA that indicate how the conductors are to be secured both along the rooftop and down to their controller s Submitted By Gerald Choate 817 886 1969 Submitted On Aug 13 2014 1 0 Evaluation For Information Only The fastening of conductors and conduits fall under means and methods of electrical and the contractor shalluse the most appropriate means to do so Submitted By Francis Oakes 678 281 0907 Submitted On Aug 18 2014 Backcheck not conducted Current Comment Status Comment Open 5762644 Electrical Plans n a n a Utility Disconnect Comment Classification For Official Use Only FOUO Although the Enphase Micro Inverter serves as an AC disconnect you still need to verify with AHJ if a separate Utility disconnect is required esp for Fire Dept Need to verify if this 1s not required by IEEE It is covered 2014 NEC Article 690 Submitted By G
59. 40 6 kg 15 6 in 26 0 in 9 56 in 396 mm 660 mm 243 mm Fusion Roof Anchor Post SKU Description Designed to Accommodate STANDING SEAM ROOFING Includes post with base and standing seam clamping assembly kit X10000 Small base Standing seam spacing from 11 75 in 298 mm to 17 in 432 X10001 Large base Standing seam spacing from 11 75 in 298 mm to 21 25 in 540 X10002 Large base amp extension bars Standing seam spacing from 11 75 in 298 mm to 24 in 610 mm METAL SHEATHING ROOFING Includes post with base and rivet kit with sealing washers and mastic tape X10010 Small base Metal sheathing w minimum thickness of 24 gauge 0 024 in 0 61 X10011 Large base Metal sheathing w minimum thickness of 24 gauge 0 024 in 0 61 mm Trapezoidal spacing of 8 in 203 mm to 20 in 508 mm in one inch 25 4 mm increments EH MEMBRANE BUILT UP ROOFING Includes post with base and toggle bolt kit X10030 Up to 5 5 in 140 mm thickness Fastens through membrane insulation amp into metal sheathing wood sheathing or concrete with a combined thickness of up to 5 5 in 140 mm X10031 gt 5 5 in 140 mm amp up to 10 5 in 267 mm thickness Fastens through membrane insulation amp into metal sheathing wood sheathing or concrete with a combined thickness of 5 5 in 140 mm up to 10 5 in 267 mm E WOOD SHEATHING TEMPORARY INSTALLATIONS ONLY Includes post with base and lag screw kit X10040 Wood
60. 60 Where To Find Distributors of Old Castle etc Purpose Online Information http oldcastleproductgu ide com locations Product ballast if needed Distributors of Tyco Electronics http www te com catal og products en g 19543 81 3 Module grounding On other sites this item may be referenced as a Solklip Please make sure to check the product number to verify correct part www unistrut us Distributors of Unistrut or competitors Connecting North South if needed Distributors of commercial roofing Also available through Allied Building Products Use if needed for roof surface Questions Call 1 877 847 8919 or email RSA PL42013 MRenusol Solar Mounting Systems General information e All transactions according to Renusol America Inc General Terms and Conditions of Sale e All prices in USS customer discount to be deducted including packaging excluding VAT and freight charge e Payment terms are cash in advance unless other terms have been agreed upon after credit approval e Delivery Freight on Board FOB destination Freight Prepaid and added to the invoice e NVe reserve the right to make changes in the form technique dimension weight and material for the purpose of technical improvement e Errors and omissions excluded e With the present pricelist all previous pricelists have become invalid Renusol America Inc 1292 Logan Circle NW
61. 67 The 1 025 meter spacing is best suited for connecting PV modules Installed in portrait orientation while the 1 7 meter gap is best suited to PV modules installed in landscape orientation Cabling with connectors spaced at 1 025 meter 40 for PV modules in portrait orientation m lt 4 4 M 5 5 U p Q L L M p ro H r gt 4 M e a L H V 2 af H H St ee eo oee cel mmm MEER GUB MO 1 025 meters 1 025 meters Cabling with connectors spaced at 1 7 meters 67 for PV modules in landscape orientation 4 meters 1 7 meters gt Page 8 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b enphase Voltage Types and Conductor Count The voltage types are either 240VAC split phase or 208VAC three phase cable connectors bear labels indicating their cable voltage designation Typically used for residential applications 240VAC includes four conductors This cabling should also be used for split phase 208VAC applications Three phase 208VAC cabling includes five conductors and is used for most commercial inst
62. 9 30 am the snow stopped allowing for exterior observations It was overcast until around noon The A E Survey Team was comprised of Bernard Braddick with Blair Remy Corp and Judd Oakes with Merrick the architectural and electrical engineering representatives respectively The A E Survey Team was able to enter all spaces considered for PV panel installation The VMF vehicle maintenance facility was viewed from the ground While on site the A E team requested as built and shop drawings for the existing structural systems and received the Reserve Center Facility Addition 1 flat roof as builts Photos were taken of the documents the morning of the site visit BLAIRREMY Site Visit Terre Haute IN The Vehicle Maintenance building is not considered for PV panels because of its orientation and location among large trees 4 CIVIL SITE OBSERVATIONS 4 1 General Observations The site is located in a heavily wooded residential area Roofs are a mixture of high and low slopes The high sloped roofs of the Original Reserve Center and Reserve Center Addition 2 have a standing seam metal finish at a 4 12 pitch The low sloped roof of Reserve Center Addition 1 is sloped approximately a half inch per foot facing north The ballasted mounting system for the PV panels on the low sloped roofs must account for the roof sloping in the wrong direction Unfortunately the majority of the roof areas that could be used for PV panel installatio
63. E NA EGET cr im Ne 1 f 5 S C ON C FLA S CPE CR fT a 2 t C c 1 j i _ C UP S CPE mi St uj FASLLS O HFRS DCE PT CHA 17 VJ T DOWN 5 CROSS Sc ON i oan SPECIFICATIONS L 20 2 3 MAX A ii Hi PUR N SPACINS NI MIN CI FAR HGH Cll N DIGR 15 CLA T TL CAP I POS IRA I OR ANDSCA FAH I D C OPI NA CANI LEY R OPI ONS CAP SPACE ONAL NOTES SOLAR SUPPORT SYSTEM FULL CANTILEVER 223 FOSTER MARTINEZ 94583 SPECIFICATIONS NOTES MAX 407 2 2 N SPAC NG OO 1 DEGREES MN HDH VE 11 1 T JL FANE IF ANZSUQAPI PN DOR DEC CH UNA CANTITVER nz IAN CAF SPALI cH E FDF 1 TE RU M BY YHERS f SUNN N Ber 47 OK SIMON 4 ss i e i e AUTO SHE YN CROSS CN SHTO IE AJ Sues 1 _ i Rio IFCK CP Dol OFTIONAL SOLAR PANEL CANTILEVER qa
64. HFDE 225 22 EDB 225 42 EDS 225 65 ED 225 100 EDH 250 65 JD 250 100 HJD 250 200 JDC 400 65 DK 400 65 KD 400 100 HKD 400 100 LHH 400 200 KDC Volume 2 Commercial Distribution CA08100003E April 2014 www eaton com Pow R Line C Panelboards PRL1a Branch Circuit Breakers Bolt on BAB OBHW 0BGF OBHGF OBGFEP OBHGFEP OBAG OBHAF OBHAG Plug on OPHW OPGF OPHGF OPGFEP OPHGFEP Interrupting Ampere Rating kA Sym Breaker Rating 240 Vac Type 70 10 80 100 10 15 50 10 OBGF 0PGF 15 50 10 QBGFEP QPGFEP 4 15 20 10 OBCAF 15 60 10 BAB D HOP D 15 30 10 BAB C HOP B 15 30 10 BABRP 15 30 10 BABRSP 15 60 22 QBHW QPHW 70 22 QBHW QPHW 80 100 22 QBHW QPHW 15 30 22 QBHGF QPHGF 15 30 22 QBHGFEP QPHGFEP 15 20 22 QBHCAF Provision Notes Single pole breakers are rated 120 Vac maximum 50A devices are available as two pole only for 5 mA personnel protection GFP for 30 mA equipment protection 9 Arc fault circuit breaker HID High Intensity Discharge rated breaker Switching Neutral Breaker single pole device requires two pole space two pole device requires three pole space Solenoid operated breaker V2 T3 27 Pow R Line C Panelboards Box Sizing and Selection Approximate Dimensions in Inches mm Assembled Circui
65. LT TT Blowing sand resistant S 2 000002 SolarWorld Plus Sorting Z ER Plus Sorting guarantees highest system efficiency SolarWorld only delivers modules that 2569 run XY have greater than or equal to the nameplate rated power ISO 9001 25 years linear performance guarantee and extension of product warranty to 10 years ISO 14001 SolarWorld guarantees a maximum performance degression of 0 7 p a in the course of Certified 25 years a significant added value compared to the two phase warranties common in the industry In addition SolarWorld 15 offering a product warranty which has been extended to 10 years in accordance with the applicable SolarWorld Limited Warranty at purchase www solarworld com warranty Kk kkk k KA SOLARWORLD MADE IN USA NJ solarvvorid com VVe turn sunlight into povver Sunmodule Plus sw 275 mono PERFORMANCE UNDER STANDARD TEST CONDITIONS STC PERFORMANCE AT 800 W m NOCT AM 1 5 Maximum power 275 Wp Maximum power Pos 205 0 Wp Open circuit voltage V 39 4 V Open circuit voltage V 361V Maximum power point voltage V nop 31 0 V Maximum power point voltage m 28 4 V Short circuit current 9 58 A Short circuit current 175 Maximum power point current 8 94 Maximum power point current 7 22 STC 1000 W m 25 AM 1 5 1 Measuring tolerance traceable to Rheinland 2
66. Lightning Surge Protection Lightning protection and resulting voltage surge are protected in accordance with EN 62305 1 It is assumed that the PV modules are installed in accordance with related standards and that the microinverter is a part of a broader lightning mitigation system in accordance with EN 62305 1 3 In some areas the statistical frequency of lightning strikes near a PV installation is high enough that lightning protection must be installed as part of an Enphase system n some areas a surge protection device might be mandatory following a risk analysis according NFC 15 100 art 443 amp NFC 15 443L Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b e enphase G Y Selecting Cable Type Enphase Engage Cable is available in two different voltage types and two connector spacing options Depending upon installer needs the cable is also available in different lengths The cable is installed by simply rolling out the desired length of cable and cutting it to size One end is wired directly into the junction box at the head of the branch circuit eliminating the need for a separate AC interconnect cable The other end is sealed from the environment using an Enphase Branch Terminator The microinverter AC cable connectors are then plugged into the regularly spaced connectors as shown Connector Spacing Options The gap between connectors on the cable can be either 1 025 meters 40 or 1 7 meters
67. Marine Corps Reserve Prepared by Merrick amp Company 3575 Koger Blvd Duluth GA 30096 404 739 5100 Terre Haute 80kW Photovoltaic System PV Designer Report May 2 2014 Oog geg LILIL MERRICK amp COMPANY Table of Contents Table ci CORBIS kene Executive Summary I PAN PV Designer Report ROOSI DOSIGN Roof 2 Design Roof 3 Design mig DOSIGN uuu ROOT oolar Access and Shade Report Roofs 1 2 3 Solar Access and Shade Report Roofs 4 4 5 Supporting Data for PV Design in the Terre Haute Area APPENDICES Appendix A PV Module Space Calculation Flat Roof Appendix B Catalog Cut Sheets Appendix C Payback Calculation MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Report Page 1 Executive Summary The Photovoltaic PV System to be installed at this project site is to provide a minimum 80kW output The calculated output of the designed layout is 80kW as shown in the PV Designer Report Summary section of this report The PV collection modules to provide this output will be installed on Roof Syste
68. May Oct 98 Winter Nov Apr 94 Monthly solar access Fixed Tilt 189 Azim 260 Data by Solmetric SunEye www solmetric com Data by Solmetric SunEye www solmetric com Sky02 3 25 2014 10 48 north west Panel Orientation Tilt 18 Azimuth 260 Skyline Heading 172 Solar Access Annual 96 Summer May Oct 97 Winter Nov Apr 9496 Monthly solar access Fixed Tilt 18 Azimz 250 999 IH Jan Feb Mar Apr May 5 Mov Dec Data by Solmetric SunEye www solmetric com Data by Solmetric SunEye www solmetric com MFR Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Report Page 11 Sky03 3 25 2014 10 51 no skyline note Panel Orientation Tilt 18 Azimuth 260 Skyline Heading 176 Solar Access Annual 96 Summer May Oct 98 Winter Nov Apr 93 Monthly solar access Fired Tilt 18 Azim 260 Sep Data by Solmetric SunEye www solmetric com Data by Solmetric SunEye www solmetric com Sky04 3 25 2014 10 56 no skyline note Panel Orientation Tilt 18 Azimuth 260 Skyline Heading 176 Solar Access Annual 90 Summer May Oct 97 Winter Nov Apr 76 Monthly solar access Fixed Tilt 18 nd il Feb Apr May Jun Jul Mar Data by Solmetric SunEye www solmetric com Data by S
69. PLATE COLLECTORS Jan Feb Mar Apr May Jun Aug Sep Oct Mov Dec Year _ Average 37 47 53 66 77 84 85 t 55 96 31 59 2 Tracking Minimum 2 6 3 2 4 2 5 1 6 2 7 3 7 1 6 6 5 8 4 0 2 4 2 0 5 6 Maximum 49 5 9 6 5 8 5 84 106 9 5 9 4 8 1 6 7 5 3 4 4 6 8 DIRECT BEAM SOLAR RADIATION FOR CONCENTRATING COLLECTORS ar pr y Ju ug ct Average 20 2 3 2 3 28 3 4 3 7 3 7 3 4 3 1 2 9 1 9 1 6 2 7 acing Minimum ll 11 14 17 22 27 26 23 16 09 08 25 Maximum 3 0 3 4 3 2 4 2 4 8 5 8 4 8 4 7 4 3 3 8 3 3 2 7 3 5 1 Axis N S Average 1 4 2 0 2 5 3 6 4 4 4 9 4 8 45 38 2 8 1 5 1 1 3 1 Tracking Minimum 0 8 1 0 1 5 2 1 2 9 3 8 3 6 3 5 2 8 1 6 0 7 0 5 2 8 Tilt 0 Maximum 2 2 3 1 3 6 5 5 8 4 7 8 6 3 6 3 8 1 3 8 2 8 1 8 4 0 j Axis N S Average 21 27 30 38 43 48 46 46 42 36 21 1 7 34 Tracking Minimum 1 2 1 3 1 8 22 2 8 3 6 3 5 3 5 3 1 2 1 10 0 8 3 1 Lat Maximum 3 3 4 1 4 2 5 8 6 2 74 6 1 6 4 5 8 4 8 J 2 8 4 4 Average 23 28 30 3 9 46 50 50 47 42 36 22 18 36 2 Axis Tracking Minimum 1 3 1 4 1 8 2 3 3 0 4 0 3 7 3 6 3 2 2 1 1 1 0 9 3 2 Maximum 3 5 2 4 2 5 9 6 6 7 8 6 5 6 7 2 8 4 8 3 9 3 0 4 6 AVERAGE CUMATIC CONDITIONS Jan Feb Mar Apr May Jun dul Aug Sep Oct Nov Dec Year Average Temperature 3 6 1 3 5 2 11 3 17 1 22 2 24 1 22 9 19 2 12 6 6 1 0 6 11 3 Average Low C 8 2 6 2 0 1 5 3 10 9 16 1 18 4 17 1 13 1 6 4 1 2 4 9 5 8 Average High 0 9 3 5 10 5 17 4 232 28 2 29 7 28 7 25 3 18 8 11 1 3 6 16 7 Record Low
70. RFORRES Terre Haute IN i Lightning Protection Risk Assessment West Bldg d d db ____ EN LIGHTNING PROTECTION RISK ASSESSMENT CALCULATION 2 3 4 Per NFPA 780 2011 Edition Annex L Lightning Risk Assessment the tolerable lightning strike 5 frequency Nc is compared with the expected lightning frequency Nd The result of this comparison is 6 used to decide if a lightning protection system is needed If NdsNc lightning protection system can be 7 optional If Nd gt Nc a lightning protection system should be provided 8 9 LIGHTNING STRIKE FREQUENCY N 10 11 NJ AJ C 107 12 the yearly lightning strike frequency to the structure 13 N the yearly average flash density in the region 14 A the equivalent collective area of the structure m 15 C the environmental coefficient 16 17 8flashes sq km yr X based on Vaisala Flash Density Map Figure L 2 a or b in 780 18 A LW 6H L W T 9 H 36307 m 19 0 0 ft 0 m height of low roof 20 19 0 ft 6 m height of high roof 21 151 0 ft 46 m overall building length 22 W 44 0 ft 13 m overall building width 23 otructure surrounded by larger structures or trees within distance of 3H 24 25 0 0073 26 27 TOLERABLE LIGHTNING FREQUENCY 28 29 N 1 5 107 30 C3 C3 C4 C5 31 1 0 Nonmetallic structure metal roof 32
71. RP BABRSP 18 8X GHO GHB HGHB 24 10X Ll ed 30 13X 36 15X 42 18X EDB EDS ED 1 Pole 1 Pole IX EDH EDC 2 Pole 2 EHD FDB FD FDE 1 Pole 2X HFD FDC HFDE ale 150A max per branch breaker 2 Pole 3X 300A max per connector 2X EDB EDS ED 2 Pole EDH EDC diui cubi 3X FD HFD FDC three pole FDE HFDE Neutral 5X 100 250A Section 8X 400 800A 11X 800A with through feed lug Main Lug 2X 100A Section 5X 250A 8X 400 600 14 800 Main Horizontal 2X EHD FDB FD Breaker Mounting 2 Pole HFD FDC FDE HFDE Section 3X EDB EDS ED three pole EDH EDC Vertical 7X EHD FDB FD FDE HFD FDC Mounting HFDE EDB EDS ED EDH EDC 9X FB P 14X JD HJD JDC 15X DK KD HKD KDC LHH 17X LD HLD LDC CLD CHLD CLDC 18X LGE LGH LGC 21X LCL LA P Notes GHB HGHB GHQ breakers cannot be mixed on same connector as BAB OBHW BABRP and BABRSP Maximum of six breakers per panel Horizontal mounted 15 150A main breakers EHD FD FDE HFD HFDE and FDC will be furnished as branch breaker construction Branch breakers single two or three pole as required may be located opposite these main breakers If optional terminal kit 3TA225FDK is required use 10X FB P and LA P top mounting only LCL or LA P main breaker requires 6 1 2 inch 165 1 mm deep box e e Pow R Line C Panelboards Layout Example 1 Description of Pa
72. Roof 3 B Roof 4 Roof 5 12000 10000 8000 6000 4000 H lii 0 Feb ar Apr Jun Monthly Total kWH MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Heport Page 4 Roof 1 Design Design Properties Roof 1 Module Manufacturer SolarWorld AC kWh Module Model Protect SW 275 Mono Black Inverter Manufacturer Custom Inverter Model Enphase Energy Due to spacing constraints only the manufacturer and model of the first inverter is included in this report Derate Factor 0 76 Design Result Chart Layout View Length 152 03 ft Width 152 00 ft Azimuth 270 00 Slope 18 00 Total Modules 97 Solar Access 100 Color 95 i i S d Imetric Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Report Page 5 Roof 2 Design Roof 2 Design Properties AC kWh Module Manufacturer SolarWorld Module Model Protect SW 275 Mono Black Inverter Manufacturer Custom Inverter Model Enphase Energy Due to spacing constraints only the manufacturer and model of the first inverter is included in this report Derate Factor 0 76 Design Result Chart AC kWh Layout View Length 152 03 ft Width 152 00 ft Azimuth 90 00 Slope 18 00 Total Modules 52 Solar Access 9555 Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer
73. Shadow Analysis Site Plan Electrical Calculations and Cut Sheets Fall Protection DA TOC 1 This page intentionally left blank je1 u 9 191deuo This page intentionally left blank Chapter I General Design Analysis Solar Bhoto Voltarc PV Systems in Support of Marine Force Reserves MARFORRES Terre Haute Indiana l General Description The Marine Forces Reserve Facility will receive photo voltaic panels on approximately 8 140 SF of the existing roof During the time of the site visit the roofs appeared to be in good condition Therefore repairs to the high sloped roofs with standing seam metal roofing and low sloped roofs with a roofing membrane material are not recommended 2 Design Analysis Sections This Design Analysis reflects Blair Remy s interpretation of criteria contained in the Statement of Work for A E Services for Photo Voltaic System Designs at the Marine Forces Reserve MARFORRES located in Terre Haute Indiana Included in this document are discipline narratives addressing e Structural Engineering e Architectural e Electrical Engineering 3 Project Schedule Following is the projected project schedule e 30 May 2014 35 Design Analysis Specifications for Govt Review e 8 August 2014 95 Design Analysis Specifications for Govt Review e 15 August 2014 Final Package This page intentionally left blank 491deuo This page intentionally left blank
74. TEMPORARY INSTALLATIONS ONLY Includes post with base and lag screw kit X10040 Wood sheathing Plywood with minimum thickness of 5 8 in 15 9 mm CDX ROOFING includes post with base and concrete expansion bolt anchor kit X10050 Concrete Concrete decking with minimum thickness of 6 5 in 765 mm amp minimum concrete compressive strength of 3000 PSI 20 7 MPa E MULTI PURPOSE METAL SHEATHING WOOD AND CONCRETE ROOFING NO HARDWARE INCLUDED Includes post with base Hardware selection is based on the application See instruction manual for hardware specifications X10020 Metal sheathing wood or concrete e Metal sheathing w minimum thickness of 24 gauge 0 024 in 0 61 Trapezoidal spacing of 8 in 203 mm to 20 in 508 mm in one inch 25 4 mm increments e Plywood with minimum thickness of 5 8 in 15 9 Concrete decking with minimum thickness of 6 5 in 165 mm amp minimum concrete compressive strength of 3000 PSI 20 7 MPa Meets or exceeds all applicable industry standards including OSHA ANSI A10 32 and 2359 1 2007 This equipment should only be used after reading the manufacturer s instructions Failure to follow instructions could result in serious injury or fatality For more information or to place an order LMFRP 0810 30M RPI please contact your Miller distributor by SPERIAN p Ask the xpert Ask Miller or 814 432 2118 or Fax 814 432 2415 ysl 800 87
75. TV2090S or F EZB2090R EZTV2090S or F 800A 23X 48 00 1219 2 YS2848 LTV2848S or F 31X 60 00 1524 0 YS2860 LTV2860S or F 40X 72 00 1524 0 YS2872 LTV2872S or F 53X 90 00 22860 YS2890 LTV2890S Cabinets Standard Depth Fronts are code gauge steel ANSI 61 light gray painted 5 3 4 inches 146 1 mm finish Top and Bottom Gutters 5 1 2 inches 139 7 mm Boxes are code gauge EE E galvanized steel without knockouts Standard depth is Side Gutters 5 3 4 inches 146 1 mm A inches 101 6 mm Standard widths are 20 inch 508 0 mm 100 600 28 711 2 mm 800A minimum Volume 2 Commercial Distribution CA08100003E April 2014 www eaton com V2 T3 61 Pow R Line C Panelboards Type PRL1a Type PRL1a Product Description e 240 Vac maximum e Three phase fourwire three phase three wire single phase three wire single phase two wire e 400A maximum mains e 100A maximum branch breakers e Bolt on or plug on branch breakers e Each branch connector is capable of up to a total of 140A maximum by breaker ampere rating e Factory assembled Refer to Page V2 T3 7 for additional information V2 T3 26 Application Description e Lighting branch panelboard e Fully rated or series rated e nterrupting ratings up to 200 kA symmetrical e Suitable for use as Service Entrance Equipment when specified on the order e See Pages V2 T3 7 thr
76. US Army Corps of Engineers Design Analysis Final For Construction Solar Photo Voltaic PV Systems in Support of Marine Force Reserves MFR Sites Project Number 541320 Terre Haute Indiana August 2014 lt World United States IN Vigo Co Terre Haute Deming Park e Ka m BLAIRREMY ARCHITECTS 7 Mickey Mantle Drive JDM Place Suite 350 Oklahoma City OK 73104 This page intentionally left blank Chapter Chapter Chapter Chapter Chapter Chapter Chapter Chapter Chapter Chapter Chapter Chapter Chapter qe IV VI VET IX XI XPI XIII Appendices Appendix Appendix Appendix Appendix Appendix Appendix Appendix G H don WD gt TABLE OF CONTENTS General Siting Not Used Site Development Not Used Landscaping Irrigation Plantings Not Used Utilities Not Used Anti Terrorism Force Protection Not Used Architectural OT uotum Not Used Not Used Not Used Not Used Mechanical IX 1 HVAC IX 2 Plumbing IX 3 Fire Protection Electrical Electronics Not Used XI 1 Electronic Systems Not Used XI 2 Communications Not Used Foundation Conditions Not Used Sustainable Design Development Not Used PV System Site Survey Info Report Annotated Design Review Comments Structural Calculations and Cut Sheets Basis of Design Covered Parking PV System
77. aic FAQ Build a sundial x Albuquerque Solar experts positiveenergysolar Ask us how PNM will pay you Get SunPower More Energy For Life Creative Commons Licence You can copy some of the articles inking always the source http www sunearthtools com solar payback photovoltaic php Home gt Solar tools gt Photovoltaic payback gt Albuquerque Solar experts positiveenergysolar com Ask us how PNM will pay you Get SunPower More Energy For Life Photovoltaic payback Economic analysis of a photovoltaic system with the determination of payback and chart Enter data of the photovoltaic energy then the data estimated cost of the plant then Data eletrica bill Verifying the results of operations in the graph and table Repeat the data entry when you have more accurate and definitive System PV Own consumption energy Peak power Wp M Own consumption kWh y m Energy production KWh y o Cost kWh o Decay module PV e Own consumption 8083 Costs Contribution Initial cost Contribution KWh Cost KWp 9 5200 initial contribution m l _ Annual cost T Annual contribution o Final cost of disposal 971 Analysis period Bank financing Years contributions 9 Mutual interests m Years economic analysis xj Annual loan installment 0 Result Pay back years months o 1111 YTD Return 15 years 0 03 Cash balance 15 ye
78. al Ensure both that the microinverter does not interfere with the PV module frames or stiffening brace and that the drop cable from the microinverter can easily reach the connector on the cable b Ground the microinverters using either a continuous unbroken grounding conductor or approved grounding washers Follow the methods described in the M215 Installation and Operation Manual at http www enphase com support downloads Page 14 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b Step 5 Dress the Engage Cable NOTICE Adhere to the following requirements Do not expose the connection to directed pressurized liquid water jets etc Do not expose the connection to continuous immersion Do not expose the AC connector to continuous tension e g tension due to pulling or bending the cable near the connection Use only the connectors and cables provided Do not allow contamination or debris in the connectors Use the cable and connectors only when all parts are present and intact Fit the connection using only the prescribed tools release holes There are two release holes in the cable connector These holes are used to disconnect the connector Keep these release holes clear and accessible Attach the Engage Cable to the rack using the included clips or you may use tie wraps The cable clips are designed so that the drop cable from the microinverter can also be dressed into the clip underneath the
79. allations Because Enphase microinverters output onto two phases three phase cabling balances the phases by rotating conductor use from one microinverter to the next as shown in the following diagram In the diagram the three phases are labeled 1 2 and 3 Connector Connector Connector OZON Racking Compatibility Engage Cabling is compatible vvith a variety of racking systems For a list of approved PV module racking types refer to the Racking Compatibility document at http www enphase com support downloads Cabling Length Options Engage Cabling is available in shorter lengths with 30 40 connectors depending upon voltage type Longer lengths can be ordered and cut to suit per order Ordering options include A P ES La 1 S Wes Ww it m e 9 emen 9 Zt a xs Page 9 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b o Y Planning for Cable Lengths and Type The Cabling System is flexible enough to adapt to almost any solar design To determine the length and cable type that you need take into account the following considerations The number of Enphase Microinverters to be installed on the branch circuit Be certain to allocate the correct number of connectors including extra connectors for gaps and turns e Additional length required to reach from the AC branch c
80. ambient Cable temperature rating Cable insulator rating Environmental protection rating UV exposure rating Conductor gauge Maximum current carrying capacity of the Engage Cable Maximum current carrying capacity of the drop cable on the microinverter Cable bundle diameter Drop connector dimensions Terminator cap dimensions Cable weights about 116 0 5 kg per drop 30 drop cable 40 drop cable 240 drop cable Copyright Enphase Energy Inc 201 1 losen G Y 40C to 65C 40F to 149F 90C Dry 90C Wet THWN 2 IEC 60529 IP67 UL 746 C F1 12AWG 20 amperes 4 amperes 1 3 cm 0 525 11 8 cm x 6 0 cm x 3 2 cm 4 64 x 2 36 x 1 25 3 6 cm diameter x 5 1 cm tall 1 4 x 2 30 165 14 kg approximate 40 1605 18 kg approximate 240 165 110 kg approximate 141 00013 Rev 03b 24 Copyright Enphase Energy Inc 2011 141 00013 Rev 03b 1 Appendix Sample Wiring Diagrams Sample Wiring Diagram 240 Vac JSVHd 31DNIS Orc 07313 HILNOH QNVSOVONS OL NOLLO3NNOO 13NH3H 13 JINDYID Had SSLZW ZL OLan 318V2 30 NO G3TIVISNI dV2 BOIVNINH3I ____ EN ZEL 01901 lenau 04 92 01 o1 Sabuei aq pjnoys 51 41 paj s 22067 10 sabeyoA au 1u uidinb 110 Aue Burjeysui s10 2npuoo Jo
81. ange 1 1 October 2015 Unified Facilities Criteria DoD Minimum Antiterrorism Standards lor Pusa linde J 023 05 14 duly 2009 Unwired Facilimes Criteria Design Buildings to Resist Progressive Collapse 2 General Description The site installation involves installing PV panel system associated hardware to three Reserve Center buildings at the S Fruitridge Avenue MARFORRES site in Terre Haute Indiana This requires the evaluation of the existing roof framing system and determination of its adequacy as load supporting systems under the new dead and wind loads associated with the PV systems The original Reserve Center buildings 1650 S f were constructed in 1952 and expanded with an addition in 1980 s The roofs are sloped 4V 12H except for the connector addition which is flat Roof joists of the sloped roof are open web wood trusses spaced 2 0 c c bearing on wood stud knee walls that are supported by cmu walls and are constructed over an original flat concrete roof slab The addition that was done in the 1980 s is constructed of steel bar joists and bearing on cmu walls Split face cmu provides shear panel lateral stability around the perimeter Since the roof truss bearing is on knee wall type stud framing as much as 30 in above top of cmu additional lateral restraint will need to be added to stiffen the load path to the cmu shear walls Lateral Stability The PV system placement on sloped roofs will
82. ars 1913 Compound interest 15 years 0 03 Cash balance 70 years a 9 441000 gt Solar Power in Las Cruces sunspotenergy com Sunspot Solar Can Help Spin Your Electric Meter Backward Learn More T back to top gt Data Chart Table 2 SunEarthTools com 180 000 120 000 60 000 8 T aus totop Content Data Chart Table 99999990999999999999900090999999909999009090999999099009999999099990990099999999099990900090999999900909009099099999999009990909909909090909900999999909990090909999099090090900909909999990909000099090909099090000900999990909099090009099990999099 Warning number format expects parameter 1 to be double string given in home mhd 01 www sunearthtools com htdocs dp utility ajaxDP php on line 728 year flow revenue Prod cos Loan vro 7 29 2014 online calculator economic return of a photovoltaic system solar pv payback photovoltai Page 2 of 5 Visits 0 416 000 0 0 0 OJ 0 00 0 sers aaa iss erso sea e 200 5 esr _ 42 255 a orato sano ezeo 32226 amo 273 185 142 815 102 898 40 417 500 0 1313 23 047 48 500 9 82 96 43 056 56 584 70 7 45 62 924 64 667 80 5 69 182 653 72 751 4 31 3 22 2 33 1 59 0 96 0 43 0 03 0 15 70 0 25 25 863 441 863 11 1 0 35 9 33 847 449
83. cable Dress any excess cabling in loops so that cabling does not contact the roof Tripping Hazard Do not leave the cabling to rest on the roof Loose cables might become a tripping hazard Attach the Page 15 power cables correctly Place tie wraps or clips on either side of the drop connector Use one or two additional clips tie wraps or other support scheme to secure the cable between connectors Remove the temporary shipping cap from the Engage Cable Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b 4 Step 5 Dress the Engage Cable continued e Connect the microinverter and listen for two clicks as the two prongs engage Ensure that both latching mechanisms have engaged f Repeat steps through for all microinverters in the branch g Cover any unused connector with a watertight sealing cap Listen for two clicks as the connectors engage Ensure that both latching mechanisms have engaged The connector has not been designed for repeated linking and unlinking Make sure watertight sealing caps are installed on all unused AC connectors Unused AC connectors are live when the system is energized by the utility Do not use the shipping cap to cover unused connectors The shipping cap does not provide an adequate environmental seal Enphase watertight sealing caps included in the Installatio
84. ce feeding the building The secondary is run under ground to a CT cabinet than inside the building to an 800A Disconnect than from this disconnect distributed to an 800A 3 phase Panel Board 6 2 Roof Observations Electrical The roof where PV panels will be located along the west and east sides of the main reserve center are mainly free of any obstructions such as mechanical units there are a couple of vent stacks that will have to be worked around but these are minimal The flat roofs on the north side of the building have mechanical units and vent stacks that will have to be worked around but does not overall impact the module area A lightning protection system is not currently installed on the building and this will need to be provided to protect the PV panels 6 3 Electrical Room The building does not currently have a dedicated electrical room The disconnect and main panel are located in rooms that have other uses Figure 6 Existing Main Disconnect and Panelboard 6 4 Limitations Many buildings on site do not have roof access All of the visual roof observations were completed on the ground or with a ladder provided by the A E team BLAIRREMY ARCHITECTS Page 8 Site Visit Terre Haute IN 7 STRUCTURAL OBSERVATIONS otructural information will be forthcoming and under delivered under separate cover 8 CHALLENGES 8 1 Architectural Challenges None 8 2 Electrical Challenges The installations of PV systems fo
85. create an increased lateral force on the existing lateral force resisting system Additional struts will be added to provide a stiffened load path to the cmu shear walls The NET PV system will not exceed original vertical design of 20 psf live load Equipment load 4 psf will supersede the inclusion of live load 20 psf in considering critical loading combinations with PV panel loads 3 Progressive Collapse Progressive collapse is a consideration in cases where a structure requiring progressive collapse analysis for its original design is now loaded with new dead loads at the roof which increase the loads on redundant members using the alternate path and or tie force methods 4 Foundations Existing foundations are less of a concern than the smaller framing at the roof Typically foundations will have some excess capacity and the load increase due to the panels will be modest 5 Design Loads a Roof Live Load 20 psf where no PV panels PV Panels and Hardware 4 psf b Floor Live Loads N A Wind Load ILE mpn Risk Cate LI Seismic o Eus Se Si SDAP LS OG e Snow 20 psf Ground Snow Load 6 Materials a Concrete typical N A Reinforcing Steel N A c Mortar N A d Cold Formed Steel N A e Structural Steel N A f Aluminum ASTM 6061 6 g Wood Southern Yellow Pine 2 T3 Specifications Refer to Specifications 8 Calculations See Appendix C Structural Calculations NETT 291419915 X 191deu5 This page intent
86. croinverters to the Racking Dress the Engage Cable Terminate the Unused End of the Engage Cable Connect the Engage Cable to Junction Box es Verification and Commissioning Risk of Electrical Shock Due to presence of exposed DANGER conductors DO NOT connect the Enphase Microinverters to the utility grid or energize the AC circuit s until you have completed all of the installation procedures as described in the following sections Step 1 Measure AC at Service Entrance Conductors Measure AC line voltage at the service entrance conductors Acceptable ranges are shown in the following table L1toL2 211 to 264 Vac L1 to L2 to L3 183 to 229 Vac L1 L2 to neutral 106 to 132 Vac L1 L2 L3 to neutral 106 to 132 Vac NOTICE Be sure the Engage Cable you are using matches the service at the site Use 208Vac cabling at sites with three phase 208Vac service or use 240Vac cabling at sites with 240Vac service Check the labeling on the cable drop connectors to verify the cable type eaa D ka Page 12 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b 4 13 G Y Step 2 Install the AC Branch Circuit Junction Box Risk of Electrical Shock Be aware that installation of this equipment includes risk of electric shock Do not install the junction box without first removing AC power from the Enphase System A DANGER Use electrical system components approved for wet locatio
87. d to the roof surface Miller Fusion Roof Anchor Post adapts to a variety of roof structures Standing Seam Design Aluminum clamping mechanism Is designed to pre install to the base plate and is self centering for easy installation The clamping bolts are tightened from above the plate for easy fastening and inspection Can be used for permanent and temporary installations Three models are available to accommodate standing seam spacing up to 24 inches 610 mm Wood Design Includes lag screw kit Installs into plywood with minimum thickness of 5 8 inch 15 9 mm CDX Designed for temporary installation only SKU X10001 SKU X10040 Concrete Decking Design Includes concrete expansion anchor kit Installs into concrete decking with minimum thickness of 6 5 _ _ inches 165 mm and minimum Metal Sheathing Design concrete compressive strength Designed to attach to metal of 3000 PSI 20 7 MPa sheathing with a minimum A10030 24 gauge 0 024 inch 61 thickness Hardware kit includes sealing materials to prevent water damage to roof Multi Purpose Metal Sheathing Wood and Concrete Design This multi purpose post uses the same base as models X10011 X10040 and X10050 Miller specified hardware must SKU X10011 Membrane Built up Design Easy to install toggle kit fastens SKU X10020 be purchased for this base through
88. ds Three rail system 64 psf upward IEC Design Loads Two rail system 50 psf upward Please refer to the Sunmodule installation instructions for the details associated with these load cases ADDITIONAL DATA Appendix B Power sorting 0 Wp 5 Wp J Box IP65 Connector MCA Module efficiency 16 40 Fire rating UL 790 Class C 0 6 15 3 VERSION 2 5 FRAME Compatible with both Top Down and Bottom mounting methods dr Grounding Locations 4 corners of the frame 4 locations along the length of the module in the extended flanget Independently created PAN files now available Ask your account manager for more information sw o1Rage3 88 2013 Enphase Microinverters L nphase M250 The Enphase M250 Microinverter delivers increased energy harvest and reduces design and installation complexity with its all AC approach With the M250 the DC circuit is isolated and insulated from ground so no Ground Electrode Conductor GEC is required for the microinverter This further simplifies installation enhances safety and saves on labor and materials costs The Enphase M250 integrates seamlessly with the Engage Cable the Envoy Communications Gateway and Enlighten Enphase s monitoring and analysis software PRODUCTIVE SIMPLE RELIABLE Optimized for higher power No GEC needed for microinverter 4th generation product modules No DC design or string calculation More than
89. e Training Center PV Module Row Space Calculation Terre Haute Indiana Engineering Calculation Sheet d p x cos w y tana Where d minimum row separation distance in ft p row height in w azimuth angle per time of day 9 00am amp 3 in deg a solar altitude angle in deg module azimuth from due south in deg Azimuth angle of the sun from due South at 9 00 AM Azimuth angle of the sun from due South at 3 00 PM Qo I AM 5 coship gam tan a doam do 20 404 tan o d3pm 20 40 i d3pm p dmax max doam d3pm Worst case distance dmax 20 40 i Date 04 25 2014 By ROT Contract 62018326 Calculation No 8326 Terre Haute 100 a LISLI NI r4 lt Engineering Calculation Sheet Date 04 25 2014 B ROT Contract 62018326 OO BUILDING QUALITY SOLUTIONS Calculation No 8326 Terre Haute Subject Marine Corps Reserve Training Center PV Module Row Space Calculation Terre Haute Indiana The following calculation is to provide an adjustment to panel distances if there is a slight slope to the roof system Height 1 Height 2 Height 3 Height of panel from slop roof j Horizontal Tilt Angl Height 2 Panel Length L T ad e S p EA N La al Horzontal z a Panel Tilt Distance 1 Distance 2 nr ee 158 JA 1 F Height Horzontal RT S Height
90. e a clamp mounting method PV panels installed on low sloped roofs will be attached to non roof penetrating molded polyethylene base The layout of PV panels will be designed around obstructions such as antennas plumbing and mechanical vents The A E team recommends trimming trees on the Southwest corners of the facility in order to reduce shading on the PV panels Fall Protection during installation shall be a part of the means and methods of construction and fall under the responsibility of the contractor A permanent Fall Protection system is beyond the Scope of the project However the A E team recommends Fall Protection during the pe maintenance of the photovoltaic system throughout its life cycle In order to avoid direct attachment to the structural systems and penetrating the existing roofing material we suggest the following For low sloped roofs consider a non penetrating anchor such as the Freestanding Counterweight Anchor from Capital Safety Brand DBI SALA Model 7255000 Kor nrgh sloped roofs consider the Miller Fusion Roof Anchor Model SKU X10001 or Model SKU X10011 Appendix F Fall Protection for more information The A E team recommends placing photovoltaic panels on the existing roof structures The structure will be reinforced or braced if the additional loads caused by the PV panels require it See the structural design analysis for possible roof structure access locations and or suggestions f
91. ea panels max Some circuits are showing a load of only 1200VA for a 15 panel array This seems low unless the power value I m using 264Wac 275Wx0 96 is too high Submitted By Gerald Choate 817 886 1969 Submitted On Aug 13 2014 1 0 Evaluation For Information Only As staed on the catalog datsheets the inveretr has a max continuous rating of 240W This is what the panel will see Also note that the maufacturer states that 24 can be connected but no data was shown to provide a temeprature correction factor so I had to make a Judgement call as to how many can go on a circuit Submitted By Francis Oakes 678 281 0907 Submitted On Aug 18 2014 Backcheck not conducted Current Comment Status Comment Open 5762651 Electrical Plans n a n a PV Array Iph vS 3ph Comment Classification For Official Use Only FOUO It appears by your labeling convention that the PV Panels are connected using 2 poles lphase However the Sub Panels show the PV Panel circuits as 3ph Is this 1phs 3phs transition occurring at the jBox Submitted By Gerald Choate 817 886 1969 Submitted On Aug 13 2014 1 0 Evaluation For Information Only The inverters are single phase 208V but are wired in such a way that they are three phase 208V as seen by the electrical panel Submitted By Francis Oakes 678 281 0907 Submitted On Aug 18 2014 Backcheck not conducted Current Comment Status Comment Open 5762653 Electrical Design Analysis n a Surge Suppre
92. eading 169 Solar Access Annual 92 Summer May Oct 95 Winter Nov Apr 88 Data by Solmetric SunEye www solmetric com Data Solmetric SunEye www solmetric com aus UL xm lt CMM DOMO OMM AME MEAT Qm um x a MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer 14 Sky09 3 25 2014 11 20 east bldg north Panel Orientation Tilt 18 Azimuth 260 Skyline Heading 208 Solar Access Annual 97 Summer May Oct 98 Winter Nov Apr 97 agr ied access Fixed Tilt 18 Azim 2609 9996 993 95 979 98 99 55 97 Feb Mar Apr May Jun Aug Oct Nov Dec Data by Solmetric SunEye www solmetric com _ Data by Solmetric SunEye www solmetric com Sky10 3 25 2014 11 25 no skyline note Panel Orientation Tilt 18 Azimuth 260 Skyline Heading 187 Solar Access Annual 96 Summer May Oct 97 Winter Nov Apr 93 access Fixed Tilt 18 Azim 2809 99 58 96 994 asa 92 92 m2 92 92 Oct Nov Der Data by Solmetric SunEye www solmetric com Data by Solmetric SunEye www solmetric com MFR Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Report Page 15 oolar Access and Shade Report Roofs 4 amp 5 S
93. eaker panel as well as PV Modules micro inverters and racking for this project The main tie in for the PV System with the existing system will be at the Main Disconnect for the building on the line side Emergency Life Safety Power Distribution Not applicable for this project c Emergency Power Distribution Not applicable for this project C Critical Power Not applicable for this project 10 II Interior Lighting Not applicable for this project Lightning Protection System LPS A lightning protection system risk assessment was completed and it Stated that a lightning protection system should be installed The Design for the PV system design currently does not show lightning protection system Energy and Management Control System The existing EMCS system will not be modified for this project Intended User Responsibility for O amp M a Not applicable for this project Service Responsibility a Exterior medium voltage electrical distribution Not applicable at this time Interror electrical distribution Interior facilities provided include the solar panels and racking main PV combiner panels PV distribution panel and dry type transformer Design Provisions for O amp M Enhancement and Cost Reduction Access Code recommended working space for maintenance is provided for all electrical equipment installed basic Materials of Construction All conductors are copper
94. er of rights to payment in respect of any incentive payments rebates or similar payments available to Customer from third parties in connection with the installation of the Product such payments and rebates are herein referred to as Product Incentive Payments Customer shall be responsible for preparation and delivery of any documentation necessary to assign any Product Incentive Payments approved for payment by Supplier Additionally if any applicable third party fails to make any Product Incentive Payment at the time due or expected to be due Customer shall not be relieved from making such payment and shall upon the request of Supplier promptly make such payment to Supplier 4 SHIPMENT TERMS AND LIMITATIONS 4 1 All risk of loss for damage to the Product ordered in whole or in part shall be borne entirely by Customer once the Product is delivered to a common carrier for delivery to Customer pursuant to the terms of the Sales Order Confirmation 4 2 Any estimate by Supplier to Customer for the cost and time of delivery of the Product is only an estimate and time of delivery shall be automatically extended by a reasonable period of time due to unforeseen causes beyond the responsibility of Supplier 5 MISCELLANEOUS TERMS 5 1 The Sales Order Confirmation signed by both Parties may not be modified amended or altered in any manner without the mutual written consent of both Parties 5 2 This Agreement and any other documents referred to
95. erald Choate 817 886 1969 Submitted On Aug 13 2014 1 0 Evaluation For Information Only A seperate disconnect for the utility compnay 1s shown on the one line In addition This disconect may be padlocked by the utility company so we feel 1t necessary to have another means that 1s 1n control of the facility rather than the utility company Submitted By Francis Oakes 678 281 0907 Submitted On Aug 18 2014 Backcheck not conducted Current Comment Status Comment Open 5762646 Electrical Plans n a n a Surge Suppression Comment Classification For Official Use Only FOUO Please include catalog data for surge protection equipment proposed Consider including a key note in plans that references catalog data or include particulars on sheet Submitted By Gerald Choate 817 886 1969 Submitted On Aug 13 2014 1 0 Evaluation For Information Only The SPD 15 stated on E 602 also note I have varified with the manufactuer that it comes with an EGC Submitted By Francis Oakes 678 281 0907 Submitted On Aug 18 2014 Backcheck not conducted Current Comment Status Comment Open 5762647 Electrical Plans n a n a Vdrop jBox Loc Comment Classification For Official Use Only FOUO Why are there no details to show locations of jBoxes Are they always at the Ist PV Panel in the array Some calcs show a distance from the last PV Panel to the jBox Is that the longest run of conductors in that circuit Submitted By Gerald Choate 817 886 1969
96. ession Properties terre haute flat roof Creaton Date 825 2014 11 38 x 39 5 Mag Dec 3 6 W Time Zone GMT 05 00 Solar access averages of 13 skylines in this session Skylines Averaged 5 01 5 02 Sky03 Sky04 5 05 5 06 5 07 5 08 5 09 5 10 Sky11 Sky12 Sky13 Monthly Solar Access Averages 92 93 9 93 93 i Skylines Sky01 no skyline note Sky02 no skyline note Sky03 no skyline note Sky04 no skyline note Sky05 no skyline note Sky06 no skyline note Sky07 no skyline note Sky08 no skyline note Sky09 no skyline note Sky10 no skyline note Sky11 no skyline note Sky12 no skyline note Sky13 no skyline note MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer 16 Sky01 3 25 2014 11 42 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 180 Solar Access Annual 88 Summer May Oct 88 Winter Nov Apr 8796 Monthly solar access Fired Tilt 109 Azim 150 Data by Solmetric SunEye www solmetric com Sky02 3 25 2014 11 43 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 204 Solar Access Annual 96 Summer May Oct 98 Winter Nov Apr 92 Data by Solmetric
97. g seam metal finish at a 4 12 pitch The A E team did not find any evidence of roof ponding on low sloped roofs where photovoltaic panels are planned At the time of the site visit the A E team did not discover any visible leaks on any of the roofs Figure 4 Roof Photos Original Reserve Center The Original Reserve Center as built with a flat roof however during a renovation a pitch roof was built over the existing roof Reserve Center Addition 1 This addition was built with a flat roof oee photos below two of the Original Reserve Center and one of the Reserve Center Addition 1 respectively A 4 Figure 5 Existing Structural Conditions 5 3 Limited Floor Plan Observation The Original Reserve Center appears to have been built in the 1950s and serves as the main entry for personnel and visitors It appears to be the oldest building on the site with additions being made over the years The original building had a flat roof which was changed to sloped during a previous renovation Evidence of this can be seen from the attic which is accessible BLAIRREMY ARCHITECTS Page 7 Site Visit Terre Haute IN from pull down ladders located in the corridors HVAC equipment is located in this attic The flat roofs of Reserve Center Addition 1 can only be accessed via ladders from the exterior 6 ELECTRICAL OBSERVATIONS 6 1 General Observations The Main Reserve Center has an existing 800A 3 phase 208Y 120V servi
98. he cap you may need to trim the wires a little further using a diagonal cutter I Screw the hex nut onto the cap Never unscrew the hex nut as this can twist damage the cable j Insert a 2 Philips screwdriver into the slot on the cap to hold it in place Alternatively you can hold the cap firmly in place using the Enphase hand tool k Use a 24mm 7 8 inch wrench and tighten the nut until the latching mechanism has been screwed all the way to the base l Useatie wrap or cable clip to attach the cable to the racking so that the cable and terminator do not touch the roof Page 18 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b G Y Replacing or Removing the Terminator If the terminator must be replaced or removed observe the following Risk of Electrical Shock Never open remove or replace the Ak DANGER terminator while it is connected to the power supply Damage to the latching mechanism cannot be seen with the NOTICE naked eye Label the opened terminator and dispose of it immediately to ensure that it cannot be reused accidentally The terminator is intended for one time use only If you open the terminator again following the installation this will destroy the latching mechanism meaning that the unit then cannot be used again a Remove the terminator by cutting it off using diagonal cutter set flush against the end of the cable b Replace t
99. he terminator as described in the previous steps beginning on page 17 Step 7 Connect the Engage Cable to Junction Box es Perform the following steps in accordance with NEC NOTICE regulations a Connect Engage Cable into the AC branch circuit junction box using an appropriate gland or strain relief fitting The cable requires a strain relief connector with an opening of 1 3 cm 0 5 inches in diameter b Connect the Engage Cable into additional junction boxes as needed to transition to conduit between smaller sub arrays Remember to adhere to branch limits for the microinverters being used Page 19 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b Meter e enphase E MU E G Y _ _ se Single AC branch circuit with smaller sub arrays joined to single AC junction box Branch limit applies Multi Circuit AC Junction Box AC junction box AC junction box PV Load Center Main AC Load Center Page 20 Refer to the wiring diagrams located in the Appendix of this manual for more information NOTICE The Engage Cable uses a different wiring scheme than used with other Enphase Microinverters Be aware of the difference in wire color code The 12 AWG conductors are identified as follows L1 is sheathed in Black L2 is sheathed in red L3 is sheathed in blue 208 Vac only Neutral is sheathed in white and Ground is sheathed in green The grounding wire is u
100. iates Address 3340 Blue Springs Rd 503 Country United States State Georgia Zip 30144 Load Generator Report Output Date Thu May 29 14 Wind Output Component and Cladding Walls Zone 4 GCp P GCpi psf P GCpi psf 0 7458 14 133 23 125 0 8458 25 623 16 631 Zoned GCp P GCpi psf P GCpi psf 0 7458 14 133 23 125 0 8916 26 767 17 775 Note Illustration may not represent actual Roofs building roof type Windward Zone GCp P GCpi psf P GCpi psf Zone 1 0 3 2 997 11 989 Zone 2 0 3 2 997 11 989 Zone 3 0 3 2 997 11 989 Leeward Zone GCp P psf P GCpi psf Zone 1 0 8 24 478 15 486 Zone 2 1 2 34 469 25 477 Zone 3 2 54 452 45 460 MWFRS Walls Wind Load in X Direction Windward Cp 0 8 Leeward Cp 0 5 Side wall Cp 0 7 Height Windward Windward Leeward Leeward Side wall Side wall ft P GCpi psf P GCpi psf P GCpi psf P GCpi psf psf P GCpi psf 5 835 12 116 21 108 15 112 6 120 19 358 10 366 11 67 12 116 21 108 15 112 6 120 19 358 10 366 ASI SteelSmart amp System 7 0 Version 7 0 0 160 Page 3 5 Company Dunlap associates Date Thu
101. ied repaired or reworked in a manner not previously authorized in writing by Seller iii the Product has been utilized or handled in a manner that is inconsistent with any written instructions provided to the Buyer by the Seller iii the Product is installed in an environment for which it was not designed or which contains corrosive atmospheric conditions including without limitation chemical fumes salt water and wind blown sand or iv Buyer does not pay all invoices promptly as due in accordance with all purchase orders invoices or any other contract document related to the Product This Warranty shall not cover the following i damage from any foreign residue deposited on the finish of the Product ii damage to the Product that occurs during its shipment storage or installation and iii damage that is covered or coverable by insurance against storm or similar natural events Manufacturers of related items such as PV modules and flashings may provide written warranties of their own Seller s limited Warranty covers only its Product and not related items REPAIR OR REPLACEMENT OF ANY PRODUCT UNDER THIS WARRANTY SHALL COMPLETELY SATISFY AND DISCHARGE ALL OF SELLER S LIABILITY WITH RESPECT TO THIS WARRANTY SELLER SHALL NOT BE LIABLE FOR CONSEQUENTIAL CONTINGENT OR INCIDENTAL DAMAGES ARISING OUT OF THE USE OF THE PRODUCT BY BUYER UNDER ANY CIRCUMSTANCES SELLER MAKES NO WARRANTY THAT THE PRODUCT WILL BE MERCHANTABLE OR FIT FOR ANY
102. int voltage m 28 4 V Short circuit current 9 58 A Short circuit current 175 Maximum power point current 8 94 Maximum power point current 7 22 STC 1000 W m 25 AM 1 5 1 Measuring tolerance traceable to Rheinland 2 Power Controlled max THERMAL CHARACTERISTICS NOCT 46 C TCI 0 004 TC 0 30 K TC bm 0 45 Operating temperature 40 to 85 1000 W m 800 W m lt 600 W m 3 400 W m E gt 200 W m 100 W m SS Module voltage V Ve x 4 37 44 951 11 33 288 41 30 1050 Version 2 5 frame 65 94 1675 bottom mounting holes 1 22 31 All units provided are imperial SI units provided in parentheses SolarWorld AG reserves the right to make specification changes without notice Minor reduction in efficiency under partial load conditions at 25 C at 200 W m 100 2 of the STC efficiency 1000 W m is achieved COMPONENT MATERIALS Cells per module 60 Cell type Mono crystalline Cell dimensions 6 14 in x 6 14 in 156 mm x 156 mm Front Tempered glass EN 12150 Frame Clear anodized aluminum Weight 46 7 Ibs 21 2 kg SYSTEM INTEGRATION PARAMETERS Maximum system voltage SC 1000 V Max system voltage USA NEC 600V Maximum reverse current 16 A Number of bypass diodes 3 113 psf downward UL Design Loads Two rail system 64 psf upward 170 psf downward UL Design Loa
103. ionally left blank Chapter X Electrical Solar Photo Voltaic PV Systems In Support of Marine Force Reserves MARFORRES Sites Terre Haute IN Design References The most recent edition of referenced publications applies unless otherwise specified a IEEE 142 Recommended Practice for Grounding of Industrial and Commercial Power Systems b NFPA 70 National Electrical Code c UFC 3 501 01 Electrical Engineering d 3 520 01 Interior Electrical Systems e Energy Policy Act 2005 W EPACT 2005 General Description The site PV installation involves installing a 80KW DC Rated PV system which will involve installing PV Modules on existing pitched roofs and flat roofs as well as one side of a pitched roof The power generated from these modules will then be distributed back into the buildings electrical system at the main distribution panel located in the main electrical mechanical room AT present time the design includes 285 275W DC rated modules for a combined output total of 78 3KW Exterior Electrical Distribution The existing exterior medium voltage electrical distribution will not be reworked for this project Facility Electrical Power System The facilities power distribution system is divided into the following systems a Normal Power Distribution The existing power system will be modified for this project New PV combiner circuit breaker panels are provided along with a main distribution circuit br
104. ions in Inches mm PRL1a Panelboard Sizing Pow R Line C Panelboards Main Breaker Types Sub Feed Breaker Types Maximum of Box Dimensions and Mounting Position Mounting Position Branch Circuits YS EZ Box EZ Trim Panelboard H Horizontal H Horizontal Including Catalog Catalog Catalog Catalog Types V Vertical V Vertical Provisions Height Width Depth Number Number Number Number 100A Main breaker BAB QBHW 15 36 00 914 4 20 00 508 0 5 75 146 1 YS2036 LI2036SorF 7 2036 EZT20368 or F H 2 48 00 1219 2 20 00 508 0 575 1461 YS2048 1120485 orF EZB2048R EZT2048S or F 39 48 00 1219 2 20 00 508 0 575 1461 YS2048 1120485 orF EZB2048R EZT2048S or F 42 60 00 1524 0 20 00 508 0 5 75 146 1 YS2060 LT2060S orF EZB2060R EZT2060S or F Main lugs or EHD 18 36 00 914 4 20 00 508 0 5 75 146 1 YS2036 1120365 orF 7 2036 EZT2036 or F in break FD HFD 30 4800112192 200005080 575461 YS2048 1720485 7 20488 7 2048 42 48 00 1219 2 20 00 508 0 575 1461 YS2048 1120485 orF EZB2048R EZT2048S or F Main lugs or main EHD EHD 18 48 00 1219 2 20 00 508 0 5 75 146 1 YS2048 1120485 orF EZB2048R EZT2048S or F breaker with 100A FD FD through feed lugs or HFD HFD 30 48 00 1219 2 20 00 508 0 5 75 146 1 YS2048 1120485 orF EZB2048R EZT2048S or F sub feed breaker
105. ircuit junction box to the first microinverter f greater than half a connector interval is needed it may be necessary to allow for one or more unused connectors in order to span this distance Unused connectors must be covered with Enphase watertight sealing caps e Additional length required to reach from one row of PV modules to the next If the PV modules are laid out in multiple rows the distance from one row to the next often requires additional cabling length e Bend radius When planning cabling turns or loops you must account for a minimum bend radius of 6 7 2 6257 e Multiple sub arrays Often the AC branch circuit may be composed of several smaller sub arrays across more than one roof plane In this case the cable is cut to service each smaller array and the sub arrays are connected together using appropriately rated lengths of conduit The transition from cable to conduit is accomplished using an outdoor rated AC junction box as required by the NEC and local code Unused connectors must be covered with Enphase watertight sealing caps e Mixture of PV modules in both portrait and landscape orientation When PV modules are installed in mixed orientation both portrait and landscape orientation there are three choices for cabling 1 Cabling with 1 025 meter spacing between connectors results in cleanest install for the PV modules in portrait orientation For PV modules placed in landscape orientation plan for an unu
106. ists will need to be able to transfer the lateral forces properly to the roof rafters The lateral wind force resisting system is currently accomplished with shear walls either cmu or precast concrete Roof diaphram to the shear walls is through the 22ga metal deck PV panel sunmodule panel 39 41 x 65 94 x 1 22 Maximum force to shear panels is at the drill gym hall area F wh 103 65 54 26 54 208 3640 1 lbs wv 40 3 92 94 27_2 _3 4495 46 lbs 12 12 Consider Renusol Rail Section properties about centroid This is aluminum 6063 T6 grade with an allowable Fb 14 32 ksi with an unbraced length of the compression side 6 ft Sx 0 33148 in 3 r x 0 83364 in OR 110 59 Ey 050509 AT SY A Sc a height 2 361 in Using clip Spacing directly over root Joists at 5 0 c6 and rail spacing under solar panels of 3 0 Rails 3 27 273 5 HIA 21271403 f bx e E psr 147320 PSI Say O35 146 205 DA E 5 T iy 124 41 ft lbs ZA dnas f Db muse FAT OD lt S70 DS Sv 20 by 0 19995 E i P If the connection clip is positioned by the installer between existing roof purlins and not directly over purlins Use Unistrut P5000 shape Company Dunlap associates Date Thu May 29 14 Address 3340 Blue Springs Rd 503B Country United States State Georgia Zip 30144 Load Generator Report I
107. le point anchor adapts to a variety of roof designs With a variety of models available the Miller Fusion Roof Anchor Post can accommodate most industrial roof designs including standing seam membrane built up metal sheathing concrete and wood Attaches to the surface of existing roof structures Quick easy installation reduces cost requiring minimal labor and eliminating the need for roof penetration and repair Significantly reduces the fall forces on the roof structure In the event of a fall the top of the Miller Fusion Roof Anchor Post reorients with the force in a direct line and activates the patent pending energy absorber Durable design that withstands the changing outdoor environment Internal components are constructed of stainless steel The steel post and base are plated with zinc followed by a premium powder coating for two layers of protection Models for steel decking concrete and wood can be used on other non roof structures Modular bar extenders accommodate additional standing seam widths Bon a Single Point Anchor Weather Built in Energy Absorbing Component 2 In the event of a fall the Miller Fusion Roof Anchor Post orients in Base Attachment the direction of the force the built in energy absorbing component activates and the base remains securely attached to the roof surface Miller Fusion Roof Anchor Post adapts to a variety of roof s
108. les service and customer support from its headquarters in Atlanta Georgia and through a network of authorized distributor partners across the country The company is part of the Centrosolar Group a publicly traded company on the German stock exchange and is a wholly owned subsidiary of Renusol GmbH a market leader in Europe with close to 1GW of solar power mounted on Renusol systems Rail l Renusol America Continuous spans up to 12 feet 1292 Logan Circle NW Atlanta 30318 Rail approved for side mounting www renusolamerica com of WEEBs E ya Solar Mounting Systems 1 877 847 8919 Installation Manual Enphase Engage Cable and Accessories 4 Contact Information Enphase Energy Inc 201 1 Street Petaluma CA 94952 Phone 707 763 4784 Toll Free 877 797 4743 Fax 707 763 0784 http www enphase com info enphaseenergy com Other Information Page 2 Product information is subject to change without notice All trademarks are recognized as the property of their respective owners Copyright 2011 Enphase Energy All rights reserved Copyright Enphase Energy Inc 2011 141 00013 Rev 03b Table of Contents Important Safety 1 1 22 2 2 2 2 1 02 2 5 5 GON corsa DOR OC OO CCP
109. membrane insulation This model does not include hardware and into metal sheathing wood sheathing or concrete Applications Models available for built up roof Roof inspection and maintenance thicknesses accommodate up to Air conditioning ventilation fan and solar panel maintenance 10 5 inches 267 mm Skylight cleaning Debris removal from gutters e Installation and maintenance of satellite dishes and other Complete list of models SKUs on back page communication systems Dimensions Specifications Roof Anchor Post Materials Energy Absorber Stainless Steel Internal Connecting Components Stainless Steel Top and Bottom Post Plates Anodized Cast Aluminum Standing Seam Wood Metal Base Plate Two layer Zinc Powder Coated Steel Post Tube Zinc Powder Coated Steel Post Base Plate Seal HDPE A m Post Cap Vinyl w UV Inhibitor Connection Components Materials EM A UB VG 09b Standing Seam Clamps Anodized Aluminum Stainless Steel _ Extender Bar for Standing Seams Anodized Aluminum Stainless Steel 10000 1 10010 457 Ha Ware or Shea X10001 86i Hardware for Membrane 7 Zinc Plated Steel PVC Neoprene ____ X10011 15 25 in 218 mm Hardware for Wood ZinclatedSteel rm 387 20m Hardware for Concrete Stainless Steel 559 mm 102 mm X10050 Performance X1
110. mer May Oct 9796 Winter Nov Apr 9196 Monthly solar access Fixed 106 Azm i50 98 99950 9996 95 Data by Solmetric SunEye www solmetric com Data by Solmetric SunEye wwrw solmetric com MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Page 22 Sky13 3 25 2014 12 00 no skyline note Panel Orientation Tilt 10 Azimuth 150 Skyline Heading 181 Solar Access Annual 92 Summer May Oct 94 Winter Nov Apr 89 Monthly solar access Fixed Tilt 109 Azim 150 e 594 95 25 26 95 92 cogs Mar Apr May Jun Jul Aug Sep Oct Dar Nov Dec _ Data by Solmetric SunEye www solmetric com 9 at NT Data by Solmetric SunEye www solmetric com MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Page 23 oupporting Data for PV Design in the Terre Haute Area Annual Insolation as a Function of Panel Orientation Location INDIANAPOLIS INTL AP IM Optimal Tit 32 Azimuth 182 Insolation21695 kWh m Station ID 724380 Latitude N 39 72 Longitude W 86 27 kWh m 90 100 1695 75 99 1678 95 1610 607 90 1525 452 85 1440 80 1356 20 75 1271 p s 70 1186 6586 1101 02 60 1017 90 105 120 135 150 165 180 195 210 225 240 255 270 55 932 Azimuth 2008 Solmetric Corpo
111. mpatible with 60 cell PV modules Power line The DC circuit meets the requirements for ungrounded PV arrays in NEC 690 35 Equipment ground is provided in the Engage Cable No additional GEC or ground is required Free lifetime monitoring via Enlighten software UL1741 IEEE1547 Part 15 Class B CAN CSA C22 2 NO 0 M91 0 4 04 and 107 1 01 Frequency ranges can be extended beyond nominal if required by the utility To learn more about Enphase Microinverter technology e en phase E N E visit enphase com RG Y 2013 Enphase Energy All rights reserved All trademarks or brands in this document are registered by their respective owner SjRenusol Solar Mounting Systems Product Catalog Effective April 2013 Note New items are highlighted in YELLOW 1292 Logan Circle www renusolamerica com Atlanta GA 30318 info renusolamerica com 1 877 847 8919 RSA PL 42013 Renusol Solar Mounting Systems 10 Tilt System 15 Tilt System 560089 Renusol CS60 10 pack 10 Tilt 560090 Renusol CS60 60 pack e 10 Tilt Renusol CS60 10 Tilt HL 460304 Min order qty 480 pcs 560077 Renusol CS60 10 pack e 15 Tilt 560079 Renusol CS60 60 pack 15 Tilt Renusol CS60 15 Tilt HL 460222 Min order qty 480 pcs 500092 Drill Jig Each 600036 Accessory 20 pack e Hardware Kit e for micro inverter mounting etc 560094 Anchor 8 pack e Bracket Kit 6004
112. ms 1 through 5 as depicted in the Site Plan section of this report Each roof system was evaluated in its ability to produce power based on the azimuth facing and panel tilt The placement of PV modules on roof system was prioritized on roof system with higher efficiencies and with lower priority on lower roof efficiencies The order of roof system efficiencies are Roof 5 Roof 4 Roof 3 Roof 4 and last is Roof 2 The site is heavily wooded where tree where trees located on the east side of the site had a major impact to site selection of PV modules There are two trees immediately south of the main building where one of the trees appears to be a mature tree while the 2 d tree has yet matured and expected to have a major impact to roof system 1 2 The placement of PV module has taken into consideration that both trees will be matured before the end of life of the PV array therefore module were adjusted accordingly Panels mounted on the flat roof will be installed at a 10 degree angle with a spacing of 23 inches minimum between modules Panels mounted on the Main Building roof are installed flat against the existing slope of the roof The PV modules selected for this installation are the SolarWorld Model Protect SW 275 connected through Enphase Energy inverters Model M250 The de rating factor for all modules installed under this project is 0 76 The system payback calculations for this project site will be calculated after the const
113. n are not ideally oriented If allowed by the government placing ground mounted covered parking would be a feasible option from a PV panel efficiency standpoint Railroad tracks run along the east of the base Tall trees affect photovoltaic panel design and layout There is a large deciduous tree just to the southwest of the Original Reserve Center that affects PV placement on the southwest side of the roof If the tree is removed or trimmed it could allow the placement of additional panels on that portion of the roof It is ideal to install fixed photovoltaic panels facing south in open locations that are not obstructed from the east or west Possible laydown areas observed during the site visit include 1 the full east side and the north west portion of the Original Reserve Center 2 the low sloped roofs of the Reserve Center Addition 1 and the east side of the Reserve Center Addition 2 The central parking lot to the south of the Original Reserve Center has an ideal orientation for photovoltaic panels if additional capacity is needed All buildings surveyed were single story Contractor access shall be coordinated with the base 4 2 Site Access and Layout The A E team entered the secured gate on South Fruitridge Avenue It provides the only access to the site See Site Aerial Photo below BLAIRREM Y ARCHITECTS Site Visit Report Reserve Center Original Addition 1 Reserve Center Reserve Center Addition 2
114. n Kit are required for protection against moisture ingress Enphase watertight sealing caps are 67 rated Within the term IP67 IP indicates an Ingress Protection IP rating against dust and liquids This specific rating of IP67 indicates that this connector protects against all dust particles and immersion in liquid If you need to remove a watertight sealing cap you must use the Enphase disconnect tool or a 2 Phillips screwdriver Page 16 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b 17 e enphase Step 6 Terminate the Unused End of the Engage Cable Attaching the Terminator The terminator is intended for one time use only If you open the terminator following installation the latching mechanism is destroyed and the terminator cap cannot be used again If the latching mechanism is defective the terminator must not be used The latching mechanism must not be circumvented or manipulated NOTICE Adhere to the following requirements e Use of the terminator assembly is the only method allowed to seal the conductor end of the trunk Do not expose the terminator cap to directed pressurized liquid water jets etc Do not expose the terminator cap to continuous immersion Do not expose the terminator cap to continuous tension e g tension due to pulling or bending the cable near the terminator cap Do not install or use in potentially explosive environment
115. n some applications the entire system can be sixteen 45 Ib 20 3kg plates roof post base lifted by forklift or crane into place for instant set up and D ring and use Refer to instruction manual for complete details 7200439 Single Counterweight Only 45 Ibs 20 3kg Step 1 INT ak met oc Align rubber trays Install the L bolts Stack plates weights Set post and base Install the remaining into square pattern into the slots on the over bolts and onto onto the L bolts four plates and using notches rubber trays rubber trays and plates tighten bolts nuts Specifications Counterweight Plates Cast iron galvanized Rubber Trays Carbon steel PVC coating L Bolts Carbon steel galvanized Roof Post and Base Post is painted stainless steel the base is painted carbon steel D ring Forged steel zinc plated Standards Meets EN 795 1997 Class E requirements Capital Safety USA 800 328 6146 Canada 800 387 7484 Asia 65 6558 7758 Australia 1800 245 002 New Zealand 0800 212 505 Europe Middle East Africa 33 0 4 97 10 00 10 Northern Europe 44 0 1928 571324 www capitalsafety com info capitalsafety com 2007 Capital Safety Form 9700153 rev A m EHI RE RE 4 Je 1 Y pe QKK am 2a ee k
116. n such arbitration shall be authorized and instructed to award to the prevailing Party as part of its award an amount equal to the prevailing Party s costs of arbitration including without limitation reasonable attorneys fees 7 2 2 Enforcement of Arbitral Award Consent to Jurisdiction Each of the Parties hereby irrevocably consents and agrees that any legal action or proceedings brought to enforce any arbitral award granted pursuant to this Agreement may be brought in state and federal courts located in Atlanta Georgia NOTICES Any notice required by this Agreement or given in connection with it shall be in writing and shall be given to the appropriate Party by personal delivery or by certified mail postage prepaid or recognized overnight delivery services Renusol America Inc General Terms amp Condition 2 15 2012 Page 3 of 3 Initial info renusolamerica com RSA PL42013 E 1 gt e n i x ar Mounting Svstem Renusol America Inc 25 Year Limited Product Warranty for Renusol CS60 Renusol America Inc Seller warrants to the original buyer Buyer that this product s Product shall be free from defects in material and workmanship If the Product or any of its components is found defective during the Warranty Period Seller will repair or replace at Seller s sole discretion the Product or component with the same or a similar model which may be a reconditioned u
117. ndicates a hazardous situation which if not avoided will DANGER result in death or serious injury Indicates a hazardous situation which if not avoided could result in death or serious injury Indicates a hazardous situation which if not avoided could result in minor or moderate injury Follow instructions closely to avoid damage or malfunction to the device and or damage to surrounding property Safety Instructions For Your Safety DANGER Risk of Electrical Shock Do NOT connect or disconnect the photovoltaic module from the Enphase Microinverter without first removing AC power from the photovoltaic system Electrical Installation Be aware that only trained solar professionals should install and or replace the Enphase Cabling System or connect the Enphase Microinverter to the electrical utility grid Perform all electrical installations in accordance with all local electrical codes and the National Electrical Code NEC ANSI NFPA 70 The AC connectors on the cabling are rated as a disconnect only when used with an Enphase Microinverter Connect the Enphase Microinverter to the electrical utility grid only after receiving prior approval from the utility company and any applicable AHJ authority having jurisdiction Before installing the cabling read all instructions and cautionary markings in the user manual on the Enphase equipment and on the all other photovoltaic equipment
118. nel Type PRL3a three phase fourwire 120 208 Vac flush mounting Panel to have short circuit rating of 22 000 symmetrical amperes Main breaker 400A three pole bottom mounting Branch circuits bolt on as follows 12 200A single pole OBHW 1 200 three pole ED 1 225 three pole ED 2 Layout Information from Layout PRL3a table left 400A Neutral 12 poles of OBHW Two three pole ED breakers Main breaker 400A Three pole Total Height a 34X Height use 40X box 6X 15X 34X 3 From Box Tabulation PRL3a table below b Box Height 72 inches 1828 8 mm c Box Catalog Number Box Tabulation PRL3a YS2072 or EZB2072R YS Box LT Trim EZ Box EZ Trim X Catalog Catalog Catalog Catalog Units Height Number Number Number Number 100 400A 14X 36 00 914 4 YS2036 LT2036S or F EZB2036R EZT2036S or F 23X 48 00 1219 2 YS2048 LT2048S or F EZB2048R EZT2048S or F 31X 60 00 1524 0 YS2060 LT2060S or F EZB2060R EZT2060S or F 40X 72 00 1524 0 YS2072 1720725 or F EZB2072R 7720725 or F 53X 90 00 2286 0 YS2090 LT2090S or F EZB2090R EZT2090S or F 600A 23X 48 00 1219 2 YS2048 LTV2048S or F EZB2048R EZTV2048S or F 31X 60 00 1524 0 YS2060 LTV2060S or F EZB2060R 7 20605 or F 40X 72 00 1524 0 YS2072 LTV2072S or F EZB2072R EZIV2072S or F 53X 90 00 2286 0 YS2090 L
119. nit without charge for parts or labor This warranty Warranty shall be in effect for a period of twenty five 25 years from the earlier of i the date that the initial installation of the Product is completed or ii 30 days after the purchase of the Product by the Buyer the Warranty Period However for specified components generally or for a particular type of use of certain components the term of the warranty may be shorter as expressly specified or provided for by Seller s individually generated plans for the pertinent project If a shorter warranty is specified as to any component or if an exchange of a component is otherwise scheduled within a shorter period the Warranty Period shall be restricted to such specified shorter period If you need service under this Warranty you must prior to the lapse of the Warranty Period file a claim together with proof of purchase and confirmation from you that you are the original purchaser of the Product with Seller This Warranty is conditioned upon your reasonably cooperating with Seller in the evaluation of your claim and the implementation of any remedy Seller s obligation to perform under this Warranty shall not apply if i installation of the Product is not performed in accordance with Seller s written installation instructions and design specifications therein as well as generally recognized standards and principles of building and constructions work ii the Product has been modif
120. nput Building Data Load Code 2012 IBC w ASCE 7 10 Building Template Dimensions Dimension Value A ft 30 B ft 60 C ft N A D ft N A E ft N A F ft N A Location Zip Code 47807 Address 47807 TERRE HAUTE IN Geometry Stories Building Width ft 60 Number of Stories 1 Building Length ft 30 Floor Story Height ft Ridge Height ft 21 67 Roof 11 67 Eave Height ft 11 67 Roof Mean Height ft 16 67 ght ft Roof Roof Angle Roof Slope oy enang Parapet Parapet Design Parameters Type degrees X 12 Height ft Risk Category Gable 18 435 4 Ridge direction is considered parallel to Building length switch building dimensions if needed for proper ridge orientation Wind Data Wind Load Data Component and Cladding Wall and Roof Data Exposure C Wall Effective Area ft 275 Basic Wind Speed mph 115 Roof Effective Area ft 100 GCpi 0 18 0 18 Overhang Effective Area ft N A 1 Parapet Effective Area ft N A Ka 0 85 Building Corner Distance a ft 3 Wind Blowing Story Area Story Story Area Facing X dir ft Story Area Facing Y dir ft 700 2 350 1 Seismic Data ASI SteelSmart amp System 7 0 Version 7 0 0 160 Page 1
121. ns only NOTICE When stripping off the cable sheath make sure that the NOTICE conductors are not damaged NOTICE Do not weigh down the cabling system Loose cables might become tripping hazard Attach the NOTICE power cables correctly Do NOT exceed the maximum number of microinverters in an AC branch circuit as listed on page 7 of this manual and protect each microinverter AC branch circuit with a 20 A maximum breaker NOTICE a Size the AC wire gauge to account for voltage drop Select the correct wire size based on the distance from the beginning of the microinverter branch circuit to the breaker in the load center components of system wiring must be considered including internal voltage drop within the length of Engage Cable Typically three wire sections and several wire terminations must be quantified There is also some resistance associated with each OCPD OverCurrent Protective Device typically a circuit breaker As all of these resistances are in series they add together Since the same current is flowing through each resistance the total voltage drop is total current times the total resistance For a split phase system the total resistance is equal to two times the one way resistance For a three phase system each of the three line currents and resistances must be calculated NEC guidelines for voltage drop on feeder and branch circuit conductors will not be sufficient for microinverter branch
122. ofs or structures The anchor is fall arrest rated and can be used as a Single anchor point system After set up simply attach your shock absorbing lanyard self retracting lifeline or rope grab and lifeline and you are ready to go Non Penetrating Design This anchor is a counter weight type simply placed on top of the working surface Weighted bases are added to rubber trays that are connected to a shock absorbing tie off post The anchor s freestanding design installs without penetrating the roof Sheathing or surface saving valuable time and money In addition the design reduces the possibility of surface damage roof leaks and voided roof warranties Specialized Load Distributing Design This anchor incorporates a revolutionary shock absorbing system called LEAP The LEAP post with tie off point has an integral energy absorber that deploys in a controlled manner to absorb the forces generated during a fall This specialized design provides added safety to the attached worker and better distributes the forces to the anchor and structure By limiting the forces this way the T N 45 me integrity of the roof is also preserved Exe por em ra a Easy Installation Installation of the anchor system is simple fast and efficient Due to its modular design Counterweight Anchor Models the installer will never have to lift more than 45 Ibs 7255000 Freestanding Counterweight Anchor includes 20 3kg I
123. olmetric SunEye www solmetric com MFR Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Report Page 12 Sky05 3 25 2014 10 58 fruitridge ave side by tree Panel Orientation Tilt 18 Azimuth 260 Skyline Heading 200 Solar Access Annual 49 Summer May Oct 56 Winter Nov Apr 35 Data by Solmetric SunEye www solmetric com __ Data by Solmetric SunEye www solmetric com Sky06 3 25 2014 11 08 no skyline note Panel Orientation Tilt 18 Azimuth 106 Skyline Heading 183 Solar Access Annual 91 Summer May Oct 93 Winter Nov Apr 87 Monthly solar access Fixed Tilt 18 Azim 106 949 93 97 9395 3356 Oct Nov Dec Data by Solmetric SunEye www solmetric com MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Page 13 Sky07 3 25 2014 11 11 no skyline note Panel Orientation Tilt 18 Azimuth 106 Skyline Heading 184 Solar Access Annual 89 Summer May Oct 9295 Winter Nov Apr 82 Monthly solar access Fixed Tilt 18 Azim 1069 gise 93 5555 223 935 Feb Data by Solmetric SunEye www solmetric com Data by Solmetric SunEye www solmetric com Sky08 3 25 2014 11 16 no skyline note Panel Orientation Tilt 18 Azimuth 106 Skyline H
124. ood sheathing or concrete Applications Models available for built up roof Roof inspection and maintenance thicknesses accommodate up to Air conditioning ventilation fan and solar panel maintenance 10 5 inches 267 mm Skylight cleaning Debris removal from gutters e Installation and maintenance of satellite dishes and other Complete list of models SKUs on back page communication systems Dimensions Specifications Roof Anchor Post Materials Energy Absorber Stainless Steel Internal Connecting Components Stainless Steel Top and Bottom Post Plates Anodized Cast Aluminum Standing Seam Wood Metal Base Plate Two layer Zinc Powder Coated Steel Post Tube Zinc Powder Coated Steel Post Base Plate Seal HDPE A m Post Cap Vinyl w UV Inhibitor Connection Components Materials EM A UB VG 09b Standing Seam Clamps Anodized Aluminum Stainless Steel _ Extender Bar for Standing Seams Anodized Aluminum Stainless Steel 10000 1 10010 457 Ha Ware or Shea X10001 86i Hardware for Membrane 7 Zinc Plated Steel PVC Neoprene ____ X10011 15 25 in 218 mm Hardware for Wood ZinclatedSteel rm 387 20m Hardware for Concrete Stainless Steel 559 mm 102 mm X10050 Performance X10030 Activation Force 1000 16 4 4 kN X10031 229 mum Maximum Capacity 310 Ibs 1
125. or reinforcing structural members The oldest portion of the facility was originally constructed with a low sloped roof However a high sloped roof was added later during a renovation Visual access to the roof s structure is through the interior attic access ladder in this area All light fixtures and HVAC components directly under the structure to be reinforced will be supported secured or removed The contractor will store and replace building components as required to perform the work ME 1 72 JEANIONAIS 191dey 59 This page intentionally left blank Chapter VIII Structural Solar Photo Voltaic PV Systems In Support of Marine Force Reserves MARFORRES Sites Terre Haute IN 1 Design References a 2012 International Building Code b ACI 318 11 Building Code Requirements for Reinforced Concrete C AISC Manual of Steel Construction Load and Resistance Factor Design 14 Edition d ASCE 7 10 Minimum Design Loads for Buildings and Other Structures e ACI 530 1 08 Building Code Requirements for Masonry Structures f SDI Pub No 29 Steel Deck Institute Design Manual for Composite Decks Form Decks Roof Decks and Cellular Metal Floor Deck With Blecdtracal Distribution g UFC 1 200 01 1 July 2013 Unified Facilities Criteria Design General Building Requirements In UPC 25301 01 Ki June 2013 Unirived Facilities Criteria Design Structural Engineering Le DEG 4 0L0 01 o February 2012 including ch
126. ough V2 T3 23 for additional information Contents Description Product Description ssi na na s Application Description Standards and Certifications Technical Data and Specifications Type PRL1a Product Sefectlolis a ses Box Sizing and Selection Type re RR X as oa ee bd oA dee ee Nesa RC PTT Type BR EZSEP s s ax mace go ss s SS s n Po dog PRL28 LX TERRE RR Retrofit TTC ieee ine Type PRAD 12s asa noa die eh as qe gen ded We PRG ey ate od Standards and Certifications e UL 67 UL 50 e Federal Specification W P 115c Refer to Page V2 T3 7 for additional information Listed Volume 2 Commercial Distribution CA08100003E April 2014 www eaton com Page V2 T3 7 V2 T3 8 V2 T3 10 V2 T3 11 V2 T3 27 V2 T3 28 V2 T3 30 V2 T3 34 V2 T3 38 V2 T3 42 V2 T3 46 V2 T3 50 V2 T3 58 V2 T3 66 V2 T3 76 V2 T3 86 Product Selection Type PRL1a Interrupting Ampere Rating Sym Breaker Rating 240 Vac Type Main Lug Only 100 e 225 e 400 Main Breaker 100 10 BAB 100 18 EHD 100 22 OBHW 100 22 EDB 100 42 EDS 100 65 ED 100 65 FD FDE 100 100 EDH 100 100 HFD
127. ounter weight anchor provides a tie off point for personnel performing work on flat roofs or structures The anchor is fall arrest rated and can be used as a Single anchor point system After set up simply attach your shock absorbing lanyard self retracting lifeline or rope grab and lifeline and you are ready to go Non Penetrating Design This anchor is a counter weight type simply placed on top of the working surface Weighted bases are added to rubber trays that are connected to a shock absorbing tie off post The anchor s freestanding design installs without penetrating the roof Sheathing or surface saving valuable time and money In addition the design reduces the possibility of surface damage roof leaks and voided roof warranties Specialized Load Distributing Design This anchor incorporates a revolutionary shock absorbing system called LEAP The LEAP post with tie off point has an integral energy absorber that deploys in a controlled manner to absorb the forces generated during a fall This specialized design provides added safety to the attached worker and better distributes the forces to the anchor and structure By limiting the forces this way the T N 45 me integrity of the roof is also preserved Exe por em ra a Easy Installation Installation of the anchor system is simple fast and efficient Due to its modular design Counterweight Anchor Models the installer will never have to
128. qa V2 T3 76 P DP S ip ie V2 T3 86 Type PRL3a Product Description Application Description Standards and Certifications e 600 Vac maximum e Lighting panelboard or e UL 67 UL 50 250 Vdc power distribution Federal Specification Three phase fourwire panelboard W P 115c three phase three wire e Fully rated or series rated Refer to Page V2 T3 7 for single phase three wire e Interrupting ratings up to additional information single phase two wire 200 kA symmetrical 800A maximum main lugs e Suitable for use as Service e 600A maximum main Entrance Equipment when UL breaker specified on the order e 225A maximum branch e See Pages V2 T3 7 breakers through V2 T3 23 for e Bolt on branch breakers additional information e Factory assembled e Refer to Page V2 T3 7 for additional information V2 T3 58 Volume 2 Commercial Distribution CA08100003E April 2014 www eaton com Product Selection Type PRL3a Pow R Line C Panelboards PRL3a Ampere Interrupting Rating Symmetrical Breaker Rating 240 Vac 480 Vac 600 Vac 250 Main Lug Only 100 250 400 600 800 Main Breaker 100 18 14 10 EHD 100 18 14 14 10 FDB 100 22 EDB 100 42 EDS 100 65
129. r the buildings will be fairly straight forward electrically but some challenges may come as far as communications requirements for the PV meter and site specific utility metering requirements 9 RECOMMENDATIONS 9 1 General Recommendations A E recommends placing PV panels on the full east and north west portion of the Original Heserve Center on the flat roof of the Reserve Center Addition 1 and on the west side of Reserve Center Addition 2 The PV panels can be installed on the existing roof structure structure to be reinforced or braced if required Figure 7 PV Layout Site Plan BLAIRREMY ARCHITECTS Site Visit Terre Haute IN Although beyond the project s Scope the A E suggest Fall Protection during maintenance of the photovoltaic system For low sloped flat roofs A E suggest a non penetrating Freestanding Anchor Tie Off system For high sloped standing seam metal roofs A E suggest a non penetrating Clamped Anchor Tie Off system The Government should consider the systems below or similar systems that would not require penetrating the roofing membrane material and Causing a potential leak BLAIRREMY ARCHITECTS Page 10 FREESTANDING COUNTERWEIGHT ANCHOR Freestanding Anchor Does Not Require Attachment to Working Surface and Provides a Safe and Versatile Fall Arrest Rated Tie Off Point FREESTANDING COUNTERWEIGHT ANCHOR Safe and Secure Anchor The freestanding c
130. ran Jese rez E oj 15 9 273 349 689 349 298 162 396 087 4 900 ol 1 34 0 281 332 697 332 298 162 404 170 5 000 of 1 35 1 289 316 705 316 298 162 412 253 5 100 o 1 36 52 297 299 713 299 298 162 420 337 5 200 of 1 37 305282 721 282 298 162 428 420 5 300 of 1 38 4 313 266 729 266 298 162 436 504 5 400 o 1 39 5 321 249 737 249 298 162 444 587 5 500 of 1 40 aee se aee se 5700 aee ve NE C2 6 329 233 745 233 1 41 7 337 216 753 216 1 42 8 345 199 761 199 1 43 59 353 183 769 183 476 921 1 44 http www sunearthtools com solar payback photovoltaic php 7 29 2014 online calculator economic return of a photovoltaic system solar pv payback photovoltai Page 1 of 5 SunEarthTools com Tools for consumers and designers of solar Sun Position CO2 Emissions Unit of measure converter Full interactive map Measure on Map Coordinates conversion SunRise SunSet Calendar Photovoltaic FAQ Build a sundial x Albuquerque Solar experts positiveenergysolar Ask us how PNM will pay you Get SunPower More Energy For Life Creative Commons Licence You can copy some of the articles inking always the source http www sunearthtools com solar payback photovoltaic php
131. ration 50 847 Annual Insolation data above indicates that a panel facing south will produce the highest KWH production facing 180 South for the Terre Haute Indianapolis Area EQUINCOX Ft ues ib rio Ameria Ter bras Pubes buc AB righ risa serasi Solar Path for the Indianapolis Area Red line mark ups were used to calculate PV panel spacing for flat roof application MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Page 24 INDIANAPOLIS IN 39 7 N 86 3 W SOLAR RADIATION FOR FLAFPLATE CODEGIORS FACING SOUTH AT A FIXED TILT Elevation 246 m Fressure 988 mb ut pr y urn u ug ct ov ear i Average 2 o 28 0 37 7 49 58 65 63 56 46 33 21 16 41 0 Minimum 1 6 2 3 3 2 4 1 5 1 5 9 5 6 5 0 4 0 2 8 1 7 1 3 3 9 Maximum 2 3 3 3 4 1 5 7 6 9 T T 7 0 6 4 5 2 3 8 2 5 2 0 4 5 Average 28 3 6 43 52 59 63 62 59 52 42 2 8 23 46 Lat 15 Minimum 2 2 2 7 3 6 4 3 5 0 5 7 5 6 5 2 4 5 3 3 2 1 1 7 4 4 Maximum 3 5 4 4 5 0 6 3 7 0 7 5 6 9 6 8 6 1 5 0 3 8 3 1 5 1 Average 3
132. rnal Dimensions WxHxD Weight Cooling Enclosure environmental rating FEATURES Compatibility Communication Integrated ground Monitoring Compliance 40 C to 65 40 to 85 C 171 mm x 173 mm x 30 mm without mounting bracket 2 0 kg Natural convection No fans Outdoor NEMA 6 Compatible with 60 cell PV modules Power line The DC circuit meets the requirements for ungrounded PV arrays in NEC 690 35 Equipment ground is provided in the Engage Cable No additional GEC or ground is required Free lifetime monitoring via Enlighten software UL1741 IEEE1547 Part 15 Class B CAN CSA C22 2 NO 0 M91 0 4 04 and 107 1 01 Frequency ranges can be extended beyond nominal if required by the utility To learn more about Enphase Microinverter technology e en phase visit enphase com N Appendix B Page B 4 2013 Enphase Energy All rights reserved All trademarks or brands in this document are registered by their respective owner Appendix C Payback Calculation Terre Haute Terre Haute IN 80kW Photo Voltaic Array PV Designer Heport Appendix C online calculator economic return of a photovoltaic system solar pv payback photovoltai Page 1 of 5 SunEarthTools com Tools for consumers and designers of solar Sun Position CO2 Emissions Unit of measure converter Full interactive map Measure on Map Coordinates conversion SunRise SunSet Calendar Photovolt
133. romptly as due in accordance with all purchase orders invoices or any other contract document related to the Product This Warranty shall not cover the following i damage from any foreign residue deposited on the finish of the Product ii damage to the Product that occurs during its shipment storage or installation and iii damage that is covered or coverable by insurance against storm or similar natural events Manufacturers of related items such as PV modules and flashings may provide written warranties of their own Seller s limited Warranty covers only its Product and not related items REPAIR OR REPLACEMENT OF ANY PRODUCT UNDER THIS WARRANTY SHALL COMPLETELY SATISFY AND DISCHARGE ALL OF SELLER S LIABILITY WITH RESPECT TO THIS WARRANTY SELLER SHALL NOT BE LIABLE FOR CONSEQUENTIAL CONTINGENT OR INCIDENTAL DAMAGES ARISING OUT OF THE USE OF THE PRODUCT BY BUYER UNDER ANY CIRCUMSTANCES SELLER MAKES NO WARRANTY THAT THE PRODUCT WILL BE MERCHANTABLE OR FIT FOR ANY PARTICULAR PURPOSE AND MAKES NO OTHER WARRANTY EXPRESS OR IMPLIED EXCEPT AS IS EXPRESSLY SET FORTH HEREIN This Warranty is expressly subject to Seller s General Terms and Conditions of Sale which are incorporated herein by reference This Warranty extends only to claims of the original Buyer and third parties shall have no rights or benefits under this Warranty This Warranty is non assignable and non transferable without the written consent of the Seller RSA 2 15 2012
134. ruction cost for this site is estimated The average monthly energy usage for the Terre Haute site is approximately 30 907 KWH with an average cost of 0 10 KWH The 80kW DC rated system will produce a monthly average of 6707 kWH thereby reflecting an estimated average reduction of 21 796 in energy demand from the local power company Northern Indiana Public Service Company NIPSCO offers performance based incentive of 0 26 KWH for a contract length not to exceed 15 years Terre Haute power provider is Duke Electric and the performance based incentive may not be available for Terre Haute Otherwise the payback increases to 52 years NIPSCO has been contacted to confirm eligibility MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Report 2 Project Site Plan Reserve Center E ss cw Site Plan Marine Corps Reserve Center Terre Haute Indiana MFR Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Page 3 PV Designer Report Summary Terre Haute System Summary Name Terre Haute Location 39 50 87 40 W Minimum Temperature 30 00 Maximum Temperature 44 44 Weather Properties Station Name INDIANAPOLIS Data Source TMY2 93819 Location 39 73 N 86 28 W Distance From Session Location 61 76 mi 11162 558 4 6023 4284 M2 34 3 S S B Roof 1 Roof 2
135. s Do not allow the terminator to come into contact with open flame e Usethe terminator cap assembly only when all parts are present and intact Fit the terminator cap using only the prescribed tools To attach the terminator a Check the terminator cap assembly for completeness It is made up of the individual parts shown Hex nut Wire organizer Cap Cable seal b To guarantee the safety of the wire organizer and to ensure that it remains sealed please make sure that all parts are present and that all seals are seated correctly in the wire organizer O ring The wire organizer must be complete as shown A DANGER Risk of Electrical Shock The terminator cap must not be B installed while power is connected Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b c Strip at least 60 mm 2 5 inches of the shielding from the conductors the exposed wires are damaged system function longer be guaranteed d Slide the hex nut onto the cable Insert the cable all the way into the wire organizer up to the stop f Bend the individual wires into the slots spaces on the wire organizer g Using a diagonal cutter trim wires to the correct length so that they fit cleanly into the slots spaces in the wire organizer h Press the cap onto the wire organizer bending the wires into the slots of the wire organizer If the wires resist being pressed into t
136. sed connector between each PV module to accommodate the required additional distance Unused connectors must be covered with Enphase watertight sealing caps 2 Cabling with 1 7 meter spacing between connectors results in cleanest install for PV modules in landscape orientation but requires that any additional cable length between PV modules in portrait orientation be coiled and dressed so that cabling does not contact the roof Again unused connectors must be covered with Enphase watertight sealing caps 3 Another solution when PV modules are installed in mixed orientation is to transition between 1 025 and 1 7 meter spacing cable options using an outdoor rated junction box This junction box can be installed to the PV racking Page 10 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b lois G Y 20 Enphase Engage Cable and Accessories Installation Follow the instructions in this section to install the Engage Cable For information on microinverter installation refer to the M215 Installation and Operation Manual at http www enphase com support downloads terminator s Page 11 Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b one EUG Y Installation Procedure Installing the Engage Cable and Accessories involves several key steps l 2 3 4 9 6 7 Measure AC at Service Entrance Conductors Install the AC Branch Circuit Junction Box Position the Engage Cable Attach the Mi
137. sed to ground the microinverters A WEEB or continuous ground is required in addition to this green grounding wire Balanced 208 VAC is accomplished by alternating phases between microinverters Black L1 Red L2 Blue White Neutral Green Ground Black L1 Red L2 White Neutral Green Ground The green wire acts as equipment ground A continuous GEC for system ground is also required as described in the next step Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b d Page 21 one Step 8 Verification and Commissioning Prior to final connection to the utility grid ensure that NOTICE all AC and DC wiring is correct 0 o Ensure that none of the AC and DC wires are pinched or damaged Ensure that all junction boxes are properly closed Ensure that all unused connectors are capped Ensure that all connectors are properly seated Install the microinverters and commission the system as instructed by the Enphase Microinverter installation and operation manual Copyright Enphase Energy Inc 201 1 141 00013 Rev 03b e enphase G x Disconnecting a Microinverter from the Engage Cable To ensure the microinverter is not disconnected from the PV modules under load adhere to the following disconnection steps in the order shown 1 Disconnect the microinverter AC connector from the Engage Cable 2 Cover the module with an opaque cover 3
138. sheathing Plywood with minimum thickness of 5 8 in 15 9 mm CDX ROOFING includes post with base and concrete expansion bolt anchor kit X10050 Concrete Concrete decking with minimum thickness of 6 5 in 765 mm amp minimum concrete compressive strength of 3000 PSI 20 7 MPa E MULTI PURPOSE METAL SHEATHING WOOD AND CONCRETE ROOFING NO HARDWARE INCLUDED Includes post with base Hardware selection is based on the application See instruction manual for hardware specifications X10020 Metal sheathing wood or concrete e Metal sheathing w minimum thickness of 24 gauge 0 024 in 0 61 Trapezoidal spacing of 8 in 203 mm to 20 in 508 mm in one inch 25 4 mm increments e Plywood with minimum thickness of 5 8 in 15 9 Concrete decking with minimum thickness of 6 5 in 165 mm amp minimum concrete compressive strength of 3000 PSI 20 7 MPa Meets or exceeds all applicable industry standards including OSHA ANSI A10 32 and 2359 1 2007 This equipment should only be used after reading the manufacturer s instructions Failure to follow instructions could result in serious injury or fatality For more information or to place an order LMFRP 0810 30M RPI please contact your Miller distributor by SPERIAN p Ask the xpert Ask Miller or 814 432 2118 or Fax 814 432 2415 ysl 800 873 5242 Fax 800 892 4078 S uiuiui millerfallprotection com 2000 SGS
139. ssion Comment Classification For Official Use Only FOUO Please update DA to reflect what 1s being used to meet lightning protection of solar PV equipment Many designs simply show surge suppression Submitted By Gerald Choate 817 886 1969 Submitted On Aug 13 2014 1 0 Evaluation For Information Only Lightning protection 1s not currently In our scope of work for the PV systems however building with an existing LPS will be provided with a note to extend the lightning protection system in accordance with NFPA 780 2014 considering PV systems were not in the previoud standard 780 For buildings without and LPS no action will be taken since the existing building had not required LPS However the solar panels are grounded and an SPD at the panel 1s being provided Submitted By Francis Oakes 678 281 0907 Submitted On Aug 18 2014 Backcheck not conducted Current Comment Status Comment Open Public SBU FOUO Patent 11 892 984 ProjNet property of ERDC since 2004 S 99US 115 pue suollen2 e2 jeunjonJ gs 2 xipueddy This page intentionally left blank CALCULATIONS JOLIET PV system loading to the existing framing system will be evaluated using a methodology that reflects roof top equipment on existing roofs This means that 20 psf live load that was included in the original building design will be superceded by 4 psf equipment load plus wind or seismic Wind forces to the main wind force resisting system MWFRS are compu
140. t Breaker Panelboards and Lighting Controls Box size and box and trim catalog numbers for all standard panelboard types are found on Page V2 T3 29 Instructions 1 Using description of the required panelboard select the rating and type of main required 2 Count the total number of branch circuit poles including provisions required in the panelboard Do not count main breaker poles Convert two or three pole branch breaker to single poles i e three pole breaker count as three poles Determine sub feed breaker or through feed lug requirements Select the main ampere rating section from table on Page V2 T3 29 Select panelboard type from first column main breaker frame if applicable from second column and sub feed breaker frame if applicable from the third column From Step 2 determine the number of branch circuits in Column 4 Read box size box and trim catalog numbers across columns to the right Specify surface or flush mounting on the order Cabinets Fronts are code gauge steel ANSI 61 light gray painted finish Boxes are code gauge galvanized steel without knockouts Standard depth is 5 3 4 inches 146 1 mm Standard width is 20 inches 508 0 mm An optional 28 711 2 mm wide box is available Top and Bottom Gutters 5 1 2 inches 139 7 mm minimum V2 T3 28 Volume 2 Commercial Distribution CA08100003E April 2014 www eaton com Approximate Dimens
141. t be submitted with a delivery date and ship to address If a delivery date is not listed on order shipments will be held for up to 30 days only PRICES AND TERMS PAYMENT The price per Product the Purchase Price shall be as set forth in a Sales Order Confirmation to be faxed or e mailed to Customer for approval Such Sales Order Confirmation will be prepared by Supplier after receipt from Customer of the Purchase Order confirming the quantity and delivery requirements of Customer The Supplier s Sales Order Confirmation requires a signature from Customer in order for Supplier to proceed with the order Payments are due upon receipt or net 30 days if customer has a credit agreement in place Further discounts on Purchase price shall be applicable as special promotions as announced on sales quotation form Upon completion of production of the Product prepared pursuant to the Sales Order Confirmation Supplier will notify Customer by fax e mail or phone that the order is ready for shipment upon receipt of the balance of the Purchase Price for the total order Upon receipt of the payment for the entire amount of the Purchase Price Supplier will promptly ship the Product to Customer in the manner specified in the Purchase Order and confirmed in the Sales Order Confirmation Unless specific arrangement is made for an extension of credit payment is due prior to the time of delivery Finance charges equal to the lesser of 1 596 per month 1896
142. ted based upon IBC 2012 criteria using allowable stress design Basic load combinations per IBC 20127 SECTION 16005 3 include D ae DoR at SB sd rE F ALT OR O ORR D spa eee E es Ou OR SOR P de H OE TES dee OTE lj we pp os ue ONI F ou b 0 obr Or I spe ED s F in Cur E RO ud beo se Qu b Du The above excludes exceptions per 1605 3 1 Main Reserve Center New solar panel array per arch layout Added loads to the existing building from solar panels D 4 psf sunmodule Renusol mounting rails 27 25 pet KS VJE 20 94 pst OMWERS see wind analysis 0 rain 0 F L 0 Lr 20 PSF BETWEEN SOLAR PANEL ARRAY BUT Lr 0 WHERE SOLAR PANELS o 20 pst snow COMS LOCI Case SIS 4 6 27 28 20 37 pst This 1s the vertical wind pressure normal to the ridge Consider worse case X X D 0 6W 4 0 6 26 54 19 92 psf This 1s the horizontal component of wind pressure normal to ridge The Dat Sloped 9 Vl ame Spaced 5 9 are Supporting 22gg Type B roof decking which supporting rigid insulation vapor retarder ice water shield and standing seam tool panels typically 2 seam The load path Trom the raid or the solar panel moves across the gap of 6 to the 22ga metal roof deck Fasteners to the roof deck and bar jo
143. ter Model Enphase Energy Due to spacing constraints only the manufacturer and model of the first inverter is included in this report Derate Factor 0 76 Design Result Chart Layout View Length 143 00 ft Width 42 00 ft Azimuth 180 00 Slope 10 00 Total Modules 57 Solar Color Access 100 MFR Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer Report 9 oolar Access and Shade Report Roofs 1 2 and 3 Session Properties Name terre haute 3 25 2014 10 37 EN 3 a 39 5 87 4 W IMag Dec 3 6 W Time Zone GMT 05 00 Solar access averages of 10 skylines in this session Skylines Averaged 5 01 5 02 Sky03 5 04 5 05 5 06 5 07 5 08 Sky09 Sky10 Monthly Solar Access Averages 94 Hh 9 93 Skylines Sky01 no skyline note Sky02 north west Sky03 no skyline note Sky04 no skyline note Sky05 fruitridge ave side by tree Sky06 no skyline note Sky07 no skyline note Sky08 no skyline note Sky09 east bldg north Sky10 no skyline note Annual 89 92 _ 84 MFH Terre Haute Terre Haute IN 80kW Photo Voltaic System PV Designer 10 Sky01 3 25 2014 10 46 no skyline note Panel Orientation Tilt 18 Azimuth 260 Skyline Heading 174 Solar Access Annual 97 Summer
144. tovoltaic system solar pv payback photovoltai Page 2 of 5 Visits 0 416 000 0 0 0 OJ 0 00 0 sers aaa iss erso sea e 200 5 esr _ 42 255 a orato sano ezeo 32226 amo 273 185 142 815 102 898 40 417 500 0 1313 23 047 48 500 9 82 96 43 056 56 584 70 7 45 62 924 64 667 80 5 69 182 653 72 751 4 31 3 22 2 33 1 59 0 96 0 43 0 03 0 15 70 0 25 25 863 441 863 11 1 0 35 9 33 847 449 847 1 900 oj 043 _ 208 62 2000 oj 050 sena assa nee 1n 2109 oj 057 2 rer rarer r oj aereo Jese ez esae 200 oj 069 vazon 0292 2 oj 074 _ __ 25 oj 079 eser sosra1 Jese ea zones 2500 oj 055 N e N N to 198 939 226 791 254 504 189 209 161 496 BB N e 0 A N N N 1 00 1 10 20 30 40 0 60 a o D gt e 1 N N olo NJN NIN gt NJ O N cj cj
145. tration to sub surface rafters or trusses 1275 Versatile single point anchor adapts to a variety of roof designs With a variety of models available the Miller Fusion Roof Anchor Post can accommodate most industrial roof designs including standing seam membrane built up metal sheathing concrete and wood Attaches to the surface of existing roof structures Quick easy installation reduces cost requiring minimal labor and eliminating the need for roof penetration and repair Significantly reduces the fall forces on the roof structure In the event of a fall the top of the Miller Fusion Roof Anchor Post reorients with the force in a direct line and activates the patent pending energy absorber Durable design that withstands the changing outdoor environment Internal components are constructed of stainless steel The steel post and base are plated with zinc followed by a premium powder coating for two layers of protection Models for steel decking concrete and wood can be used on other non roof structures Modular bar extenders accommodate additional standing seam widths Bon a Single Point Anchor Weather Built in Energy Absorbing Component 2 In the event of a fall the Miller Fusion Roof Anchor Post orients in Base Attachment the direction of the force the built in energy absorbing component activates and the base remains securely attache
146. trike frequency to the structure 13 N the yearly average flash density in the region 14 A the equivalent collective area of the structure m 15 C the environmental coefficient 16 17 8flashes sq km yr based on Vaisala Flash Density Map Figure L 2 a or b in 780 18 A LW 6H L W 11 9 H 16478 m 19 0 0 ft 0 m height of low roof 20 ft 4 m height of high roof 21 100 0 ft 30 m overall building length 22 W 42 0 ft 13 m overall building width 23 otructure surrounded by larger structures or trees within distance of 3H 24 25 0 0033 26 27 TOLERABLE LIGHTNING FREQUENCY 28 29 1 5 107 30 C3 C3 C4 C5 31 1 0 Nonmetallic structure nonmetallic roof 32 1 0 Standard value and nonflammable 33 1 0 Normally occupied 34 Csz 1 0 Continuity of facility service not required no environmental impact 35 1 0 36 37 0 0015 38 39 udi ae A lightning protection system should be installed 41 N gt 42 No existing lightning prot system 43 44 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Terre Haute Lightning Protection Risk Assessment North Bldg flat roof Merrick From 47B Rev 6 94 Engineering Calculation Sheet Date 7 30 2014 Sheet 1 of 1 noo MERRICK 777 on iE Contract O00 amp COMPANY By staff Chk d staff Subject Solar PV Systems MA
147. tructures Standing Seam Design Aluminum clamping mechanism Is designed to pre install to the base plate and is self centering for easy installation The clamping bolts are tightened from above the plate for easy fastening and inspection Can be used for permanent and temporary installations Three models are available to accommodate standing seam spacing up to 24 inches 610 mm Wood Design Includes lag screw kit Installs into plywood with minimum thickness of 5 8 inch 15 9 mm CDX Designed for temporary installation only SKU X10001 SKU X10040 Concrete Decking Design Includes concrete expansion anchor kit Installs into concrete decking with minimum thickness of 6 5 _ _ inches 165 mm and minimum Metal Sheathing Design concrete compressive strength Designed to attach to metal of 3000 PSI 20 7 MPa sheathing with a minimum A10030 24 gauge 0 024 inch 61 thickness Hardware kit includes sealing materials to prevent water damage to roof Multi Purpose Metal Sheathing Wood and Concrete Design This multi purpose post uses the same base as models X10011 X10040 and X10050 Miller specified hardware must SKU X10011 Membrane Built up Design Easy to install toggle kit fastens SKU X10020 be purchased for this base through membrane insulation This model does not include hardware and into metal sheathing w
148. uth angle per time of day in deg a solar altitude angle in deg module azimuth from south reference in deg _ Inter Row Shading b PROFILE ANGLE SUNA BAYS m SOLAR AZIMUTH SOLAR E uU ALTITUDE ANGLE ze ES ARRAY AZIMUTH MINIMUM ROW DISTANCE SOLAR AZIMUTH ANGLE The rows must be spaced to avoid shading between 9AM and 3PM during the winter solstice The orientation of the module out side of azimuth south will impact the module spacing The array azimuth and solar south azimuth will need to be added for both time references to determine worst case scenario for panel spacing 00 M u E MER RICK Engineering Calculation Sheet Date 04 25 2014 Bv ROT BuitDiNE BUALITY SOLUTIONS Contract 62018326 Calculation No 8326 Terre Haute Subject Marine Corps Reserve Training Center PV Module Row Space Calculation Terre Haute Indiana Calculate Panel Height on flat roof Solarworld Panel Module dimensions 39 41 x 65 94 10deg Tilt Angle in deg SIL ERR cos az bih 3941in Tilt Length of PV module h h sin Panel Height from top of roof tan 4 p b Calculate Solar Azimuth and Solar Altitude from Sun Path Chart SUN PATH CHART FOR 40 817990 by Americar Terfnicai inc 556 MERRICK OO BUILDING QUALITY SOLUTIONS Subject Marine Corps Reserv
149. with THHN THWN 2 90 degrees C rated insulation Minimum size 10 All conduit s EMIT Minimum conduit size as All exterior electrical equipment is NEMA 3R construction Except boxes on the roof will be rated NEMA 4X minimum All electrical equipment and panelboards utilize copper buses 11 circuit breaker sizes less than 400 amperes are 80 rated and all sizes 400 amperes and larger 100 rated and equipped with solid State trip devices Communications cabling comprises plenum rated cables All data and telephone cabling is Cat 6 solid copper Electrical equipment and materials are generically specified using functional or descriptive specifications to avoid using Brand or Manufacturer s names unless an approved equal designation is included to indicate quality and performance requirements where a Brand or Manufacturer is used as a Basis of Design 12 5pecrrtrcatroHns Refer to Specifications List Lo Gal cu Refer to Electrical Appendix This page intentionally left blank wWodsy 5 Ad xipueddy This page intentionally left blank Photo Voltaic MARFORRES Terre Haute Indiana Prepared for US Army Corps of Engineers Fort Worth District Prepared by BLAIRREMY ARCHITECTS 7 Mickey Mantle Drive JDM Place Suite 350 Oklahoma City OK 73104 055 MERRICK 000 amp COMPANY 3575 Koger Blvd Suite 235 Duluth GA 30096
150. ystem 7 0 Version 7 0 0 160 Page 4 5 Company Dunlap associates Address 3340 Blue Springs Rd 503 Country United States State Georgia Zip 30144 Sa og SDs Load Generator Report Design Response Spectrum Date Thu May 29 14 Period 5 Design Parameters Importance Factor Fa 1 SDs 0 2209 Cs 0 0276 V Ibs 3479 3 SDC B Fv 1 6865 01 0 1277 T sec 0 2659 W Ibs 126000 Stories Floor Base Height ft Gravity Ld Ibs Cvx Floor Force 65 Cumulative Shear Ibs Roof 16 67 126000 1 3479 28 3479 28 Snow Output Roof Snow Load psf 13 86 Thermal Factor Ct 1 1 Roof Slope Factor Cs ASI SteelSmart amp System 7 0 Version 7 0 0 160 Page 5 5 suu s s 12105 gt josnuay Jaysem SuipunoJ8 499 43IM S 1001 0 123J u3e 1e duue 2 a ppiw 9T L s1 u2e1 pue 51971205 10 pue S9YIUIIM pu u do ET Z duue 2 v U V T SA dds 2 105 3 uado dijs nuy 9 8 uoljejjejsul JY JO 5 15932 901 104 12 42 Sapo Suip inq

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