Manual TRITEC TRI
Contents
1. 180 Customized Snow load kN m si ui sk i Wind load kN m2 i a Construction Design CD 2 Note To modify the roof structure click on Substructure SS section This opens the following section with the appropriate default values Al Construction Design CD Roof beam First rafter of the gable end to left mm Distance mm 700 i 200 Material Woo Y Batten Distance d mm i 340 First Batten after mm 100 Rafter Height o mm i 160 Rafter Width p mm i 80 Version 2 0 April 2015 Page 6 Subject to change TRITEC In the roof screen shading can be defined and presented via the button user defined shadings BB Definition I Preview I advanced E Interference Objects E Preview chimney 1 ni A window 2 mil window1 mil E Interference Interference Objects i window1 v Description window1 Type Type bi Width b mm e 1000 Height h mm e 200 Depth t mm 1500 I X Coordinate mm 5000 Y Coordinate mm i 500 Version 2 0 April 2015 Page 7 Subject to change TRITEC In the Arrangement screen the planned objects can be graphically checked in a 3D view Version 2 0 April 2015 Page 8 Subject to change TRITEC In the tab PV modules the PV modules to be planned are selected by clicking on the selected module 1 After that it must be stored accordingly so that the selected module is accepted 2 For a more transparent selection the modules2. C 440 V 370 V Max MPP voltage 9 C 566 W 800 W gt 3 1 Select load profile from SLP Determine consumer manually Consumer profile Choose consumption profil Cae Choose consumption profile Annual consumption kWh Residential profile standard load profile BDEW Residential profile 2 families 3 1 Residential profile 3 families i Residential profile 4 families Residential profile 5 families Load profile H01 couple aged under 30 both working Load profile H02 couple aged 30 64 both working Load profile H03 couple aged 30 64 1 working 1 at home Load profile H04 family 1 child both parents work Load profile H08 single working mother with 2 children Load profile H09 single working woman aged 30 64 Load profile H10 single man aged 30 64 shift worker Load profile H11 student Load profile H12 student 2 Load profile H13 working student Load profile H14 3 adults couple aged 30 64 both working elderly person at home Load profile H15 multigenerational household working couple 2 children 2 elderly persons Load profile H16 couple aged over 65 X Version 2 0 April 2015 Page 14 Subject to change TRITEC 34 1 Select battery manufacturer and type gt 4 2 Specify quantity of batteries gt 4 3 Store Selected battery Back Battery Battery manufacturer Hoppecke Nominal Voltage Nominal Capacity Price 2500 Hoppecke 20 OpzS 2500 Hoppecke 16 OpzS 2000 200
3. identified project address may be taken over directly as the delivery address But it can also be entered manually in the area of the delivery address also with Google support gt see following illustration item 4 T R y D E S G N Home W nGa Roof PV Modules Design Position CAD Plan Statics Polysun Electric Output CORIO Save Google Search Authorizations My Location Asign Customer Create new customer E Master data E coogie E image Project Name Demo 4 fy rooftop project demo 4 T N Comment F i I R Aarolina a S se Planing Responsible JIF spinsstt Client Manufacturer Tritec v amp se 4 F ira S D p amp 5 gt gt Kartendaten Nutzungsbedingungen Fehler bei Google Maps melden a Project Address B Shipping address Name sample project TRITEC CH Name sample project TRITEC CH Street Address Heckenweg 6 Street Address Heckenweg 6 Postal code 3270 gt Postal code 3270 City Aarberg City Aarberg 4 Phone 41 32 665 35 35 Phone 41 32 665 35 35 Email aarberg tritec energy com Email aarberg tritec energy com Notes customer owns scaffold 3 Notes customer owns scaffold Country Switzerland v Country Switzerland v The Authorizations button may be used to change the group of persons having access to the project amp A Authorizations Authorize users or groups Mitarbeiter Schulung Schulung E Messe CH1 Messe_CH1 Messe CH2 Messe_CH2 Add authorized users or groups Messe INT Messe
4. 0 Hoppecke 12 OpzS 1500 Hoppecke 10 OpzS 1000 1000 800 g g 1500 0 g Hoppecke 8 OpzS 800 0 0 Hoppecke 6 Opz5 600 600 Pet Pt PP 020000090 Hoppecke 6 OpzS 300 300 o gt 5 1 Select inverter proposal gt 5 2 If necessary edit external shading sources and course of horizon T RI 5 D ES G N Home Project Roof PV Modules Design Position CAD Plan Statics GOU ESUE Electric Output Current project Demo4 oO Current Editor Mitarbeiter Schulung Output 8 75 kWp 35 M Reset Edit horizontgraph Plan batteries amp consumer Reset batteries and consumer Report PDF Kilo Watt Peak 0 E Dimensioning Layouts A Generatorfield Details a Output Charts Variation 1 Sunny Tripower STP 10000TL 20 E ac G oc oO coz E Enstraniung Global o Dus oO PR 0 SEnergie A check V agi eae Yield Phot Itaics AC 9955 h Min AC Voltage 230V 10v S maii AC 9955 kW 5 1 Max AC Voltage 230 V 280 V 0 e Max Input Power 26 C 8279 W v 1000 Check Value Limit value Max Input Voltage 9 C 748V 1000 V 0 500 395 Min MPP voltage 68 C 465V 370V iv Max MPP voltage 9 C 599V 800 v tv Nominal DC voltage deviation 49 C 14 z i g Jan Feb March Apri May June July Aug Sept Oct Nov Dec E Battery consumer graph E Earning rates o Horizon s Self consumption on an ho Power Ratio 126 83 Sun and horizon gradient Self consumption on an hourly basis 2241 kWh Inverter efficiency 89 71 248 2
5. 47 200 20 Bin Annual energy output AC ti 9 955 kWh Annual energy output DC e 11 097 kWh Performance Ratio e 87 75 CO2 Savings e 5 340 kg Total gross area 56 802 m Specific annual yield 1 137 709 kWh kWp a Jan Feb March Apri May June July Aug Sept Oct Now Dec 180 0 120 0 60 0 0 0 60 0 120 0 180 0 Version 2 0 April 2015 Page 15 Subject to change TRITEC 6 1 Select string gt 6 2 Select modules by means of multiple selection according to the module number of the string 6 3 Select right mouse button for roof penetration and module interconnection 6 4 String left over modules via horizontal button T R D E S G N Home Project Roof PV Modules Design Position CAD Plan Statics Polysun Electric Output CLOROCIGIGIGCIGIOG Reset Horizontal Vertical Dxf Dwg AO PDF Advice Control Panel 1 6 1 Input m i Amount String amount Modules modules Sunny Tripower STP 10000TL 20 A 1 X 479 Y 5535 18 B 1 17 Version 2 0 April 2015 Page 16 Subject to change so sen omrinem suestmuerne The following describes a method of how the substructure of the roof can be manually adjusted to the actual conditions on location These adjustments are made in the roof screen by activating the button user defined substructure A In the drop down menu gt B the component to be configured is selected it may vary depending on the type of roof Note In the following examples a purlin roof wit
6. Select the suitable devices from those available gt 5 Calculate design variants and store variants as models gt 6 Select manufacturer and calculate generator field Compute layoutvariations Filter options Custom connections Save as sample Compute generatorfield details al Inverter and dimensioning layouts i Saved items W Inverter HM Samples a Manufacturer KACO new energy GmbH 1 Inverter Filter 12 0 2 Sunny Tripower STP 10000TL 20 MPP A 1 MPP B 1 PH 3 Powador 10 0 TL3 MPP A 2 PH 3 Powador 12 0 TL3 MPP A 2 PH 3 Fronius Symo 125 3 M MPP A 2 PH 3 E Selectable models Active models H Dimensioning Layouts Powador 12 0 TL3 MPP A 2 P Powador 12 0 TL3 MPP A 2 P Variation 1 3 Powador 12 0 TL3 MPP A 2 P Sunny Tripower STP 10000TL 4 Version 2 0 April 2015 Page 13 Subject to change gt 2 1 Review results gt 2 2 Possibly adjust batteries to load profile Back Plan batteries amp consumer Save Sunny Tripower STP 10000TL 20 TRITEC Min AC Voltage Max AC Voltage Max Input Power 26 C Max Input Voltage 9 C Min MPP voltage 68 C Max MPP voltage 9 C Nominal DC voltage deviation 49 C Max input current 68 C Max system voltage 9 C 230 V 160 W 230 V 280 V 8279 W E 748W 1000 V 455 W 370 V 599 V 800 Vv 14 OA 184 748 V 1000 V Max Input Voltage 9 C 706 W 1000 V Min MPP voltage 68
7. TRITEC TRI DESIGN USER MANUAL TABLE OF CONTENTS t Basic Mormaer ea E eE NEEE E TTR E EEEE TEN EEE NANNA 2 2 Base Naviera nner ore eer een eC E AATE 3 3 OFS Scrat oceans eet E Gea baeisentede Gee E E E O 4 4 aE EEE E A PE E ET EE E E E A E E E E 5 Ie POO E N E E E EEE E EA E E E E EE EA 6 5 1 Roof screen user defined shading saiciweswssssvesnecasvacsdvoaeegesancuesnueadseysarenvesspeeessgancancassavoassaniearsesauseasaveaceaveas 7 Be P OEE a EE EE E EEE E EEA E EEE E EE 9 7 COn MUCHO SCEE deen ee ree ee ee ee er er eee E EE ae nee er eer 10 8 Arrangement GEROCI ga taccz suns coappeasesecsenasecuatinsauesenceasuensaenenunniacuabns saaunsns sou snalsaseuunannedeamncneatmten sousaneienanieserare 11 9 Inverters and yield analysis With POlYSUN sssccccccssssccecceesecceceaeeccecseeeeceesseeseecessuaaeecesseeaeeeessagaeseeees 13 10 WISER GETING SUSE CEU Cian anenacensiteaaunasauncsupeduwcnagumenesonalanaunacoun asap A E EEE EEE 17 Version 2 0 April 2015 www tritec energy com Subject to change 2 easemronmarion TRI DESIGN 2 is a design software for the dimensioning and design of PV roof systems The software is entirely web based and served via a web browser Thus installation of the program as well as the installation of updates is unnecessary All calculations are carried out on a web server Special Features The calculation is based on 2D multiple field carrier computation Rail capacities of fields and ca
8. _INT Mitarbeiter Schulung Schulung Version 2 0 April 2015 Page 5 Subject to change TRITEC In the Roof screen the following is specified roof dimensions burdens by snow and wind load 1 the underlying construction 2 and the roof structure 3 The areas of roof structure and the construction area are generally hidden and filled with default values Via the quick navigation bar marked in red the wind and snow load can be put in with Google support as well as special roof adjustments depending on the roof structure Pressing the buttons Wind load calculation or Snow load calculation will open the dialogue for ascertaining the snow or wind load The dialogue is to be filled out from top to bottom After the last entry was made the value ascertained is written into the fields provided for it gt 4 By means of the user defined fields 5 roofs can be defined which deviate from the rectangular form TRI DESIGN Home Project iim PV Modules Design Position CAD Plan Statics Polysun Electric Output a CROROICEC Save Calculate snow load SN EN 1991 1 3 2003 D Snow load reduction Calculate wind load SN EN 1991 1 4 2005 D Wind load reduction Roof FastDraw Custom Custom Custon E Style of roof 1 Ridge roof Hip roof Half Hipped Roof Pavilion roof Shed roof Flat roof Elevation Customized Custom Elev Building height h mm e 6 Roofparallel Slope of roof i 25 Roofing Tile Roof Franki Y Title Roof_1 Alignment li
9. and their static capacity utilization The program provides for the distribution of fasteners according to the calculation of the multiple field carriers with an optimum distribution always being calculated Adjustment of the number of statics passes results in an increase of the iteration steps which prolongs the necessary calculation period of course Save Fixation Bracket Type ie Anchor type amp model E Module rail a Module layout plan E Clamps Fixation type TRI STAND Spezial SafeClick TRI STAND Spezial SateClick Rail installation system Horizontal 7 Fixation multiplier C a Number of mounting rails per module J 2 Supports only within module area w E Advanced Settings Overload Factor z B 1 25 125 1 3 Jump Diagonal LJ Basis rails only under module field B Min Distance Basis Profiles 0 Jump distance at short track 0 Stitzschiene verwenden LJ Anzahl Statikdurchlaufe Standard 5 0 4 Version 2 0 April 2015 Page 10 Subject to change Se ABANGEMENTSGREEN As soon as the arrangement screen is shown all calculations of module positions and statics are concluded PV modules can here be shifted deleted or made inactive Selection of modules Individual modules are selected via the mouse cursor If all modules are to be selected press the shortcut key A Attention without control key Multiple selections are possible when the Shift key is pressed or via the Ctrl key if several i
10. e Home screen the tab is empty except for the Home tab and will fill up from left to right in the course of system planning Main navigation using the example of the Home screen of a project designed Home Project Roof PV Modules Design Position CAD Plan Statics Polysun Electric Output Quick navigation Example of Home screen 2 E Create new project Open project Manage projects I need Support With quick navigation other dialog fields or lists can be accessed or any changes effected in the corresponding tab may be transmitted via the Storage button to the server After leaving an input page the data must be transmitted to the server where they are processed and stored Storage buttons Note After any changes the tabs CAD Plan Statics Polysun Electric System as well as Issue are stored directly Save Fixation Bracket Type Save Module Profile Version 2 0 April 2015 Page 3 Subject to change C B POMES The left area of the Home screen shows the project list The project list includes the last five edited projects When clicking on one of the projects the project can be opened directly and the Project tab of the selected project is directly arrived at The central area of the Home screen includes new information about product novelties and planning information In the quick navigation of the Home screen new projects can be started and existing projects opened and managed addi
11. h trapezoidal sheet was selected Regenerate Sub Structure Delete custom Sub Structure i Coordinates mm E Construction i I 3700 T ASF eg SS PA TTT TPES mae m ie bps mta at a mtaa a ai atma at areata ara maa a arererer a m maa PERE EENE O TEE EN TEENE A E AE OE TEEN MEENE a K 2i iig ee E A Coordinates mm E eee eae A E E E E EAER EE E EE EE A J er i i i B 3200 E Edit Coordinate Coordinate mm 3200 i m E Distance mm Distance mm 1500 On the left hand side there is a drop down menu gt 1 with a list of all distance parameters entered By selection of a parameter the component in the display area gt 2 is marked blue and a marker gt 3 is set on the reference axis If a new component is to be selected the list item New is to be selected in the drop down list The coordinates for the new component are changed in the area gt 4 and set by pressing the storage symbol Any parameters already set may be removed again by using the delete symbol Version 2 0 April 2015 Page 17 Subject to change Edit Coordinate Coordinate mm E Distance mm Distance mm Version 2 0 April 2015 Subject to change Page 18
12. may be optionally filtered 3 For TRITEC modules corresponding module releases are available A module database may be used additionally and own modules provided CRO Save Create new module Favourites Mf TRITEC Pv Modules I Pv Moduls selection Manufacturer Hareon Solar Technology 3 emia te PREE ere Output Hight Width Thickness Weight Caa Watt mm mm mm kg w 6 HR 200W 24 Aab Hareon Solar Technology Co Ltd 200 1580 808 40 15 8 Monocrystalline x i HR 205W 24 Aa Hareon Solar Technology Co Ltd 205 1580 808 40 15 8 Monocrystalline x i HR 250P 18 Bb Hareon Solar Technology Co Ltd 250 1636 992 40 19 3 Polycrystalline u li HR 250W 18 Cbb Hareon Solar Technology Co Ltd 250 1636 992 40 19 3 Monocrystalline Version 2 0 April 2015 Page 9 Subject to change 7 cowstmucnon sense The substructure is selected in the construction screen Selection options for the fastener depend on the selected roofing Depending on the selection of the mounting system 1 the tabs will change accordingly Via the item fastening multiplier 2 it is possible to influence the number of fasteners For a conservative design values greater 1 may be used e g 1 2 or 1 3 values smaller 1 provide a progressive design with overloading of fasteners being possible in this case Manipulation of the item overload factor gt 3 and number of statics passes gt 4 may also have an effect on the result of the number of roof fasteners
13. ndividual modules are to be selected In addition to the wind rose the number of selected modules Modules is issued Shading of interfering objects The button Shading Hide shading 1 can be used to show or hide the shadings by interfering objects They are hidden as a standard With shading shown the left edge of the window presents the shading legend in a percentage scale The orange symbol 2 above the legend may be used to change the modules to transparent for a simpler evaluation of the module shading Modules can then remain normally editable Editing and addition of modules Individual modules can be added via the Add new module button 3 1 3 2 To do so hold the mouse button down and drag the new module to the specific roof surface position If the modules are to be laid into a TS profile care must be taken that the modules are properly joined flush This is achieved by positioning the module flush on the edge of an already fitted module Should several modules be added it is recommended to use the Multiple paste function 3 3 After clicking on the symbol a field can be enlarged on the roof by means of the left mouse button pressed The modules where others are to be fitted must be in contact with the field Selected modules can be shifted on the module field by means of the mouse or the arrow keys The increment for shifting via the arrow keys can be changed by entering the keyboard increment in the upper area 4 Changing z
14. ntilever arms and the resulting forces on the bearings are calculated according to the characteristic data of the rail and the fastener with the forces acting upon the rail The acting forces are calculated according to their type surface load line load point load via the components involved all the way to the roof fastener It is thus possible to provide a separate verification for the respective component as far as verifications are available Load calculations according to standard Euro code Rails are calculated in accordance with Euro code 9 for aluminium Note Depending on the type of licence and the planning status the scope of the design tool descriptions presented in the following may deviate from the description here available Version 2 0 April 2015 Page 2 Subject to change easenavinion Input fields and masks are principally processed from left to right and from top to bottom TOP DOWN Input fields and drop down menus are filled with default values They were filled with realistic standard values so that project processing can be swiftly carried out in the preliminary planning phase Navigation in the individual design steps is effected via tabs and buttons Navigation is divided into two areas 1 Main navigation 2 Quick navigation Note The number of tabs of the main navigation depends on the planning stage of the opened project as well as on the type of licence used When starting a project from th
15. oom view and roof edge distance On the bottom left a zoom factor can be set so that large roof areas can be scaled in presentation 6 On the top right of the screen 7 the rack view is provided Here changes due to shifted modules can be directly reproduced The view may be enlarged by mouse clicks and minimized by clicking the orange button In the area underneath 8 a defined edge distance may be specified edge distance H horizontal and edge distance V vertical with the distances referring to the intersection of the coordinate axes zero point Version 2 0 April 2015 Page 11 Subject to change TRI DESIGN Home Project Roof PV M ooules CAD Plan Statics Polysun Electric Outp Q New Module horizontal New Module vertical Multiple Insert Regenerate module area Hide Sha s 3D View Version 2 0 April 2015 Page 12 Subject to change Via the computational kernel by Vela Solaris a system specific inverter design and yield analysis can be performed Two modes are available for it standard and expert In the following the expert design is described TRI DESIGN Home Project Roof PV Modules Design Position CAD Pian Statics BREN Electric Output Current project Demo 4 Current Editor Mitarbeiter Schulung 8 75 kWp 35 M Output Kilo Watt Peak 0 paymi Standard Expert CLICK ON THE LOGO TO START POLYSUN gt 1 Select manufacturer gt 2 Filter according to performance class gt 3
16. tionally it is possible to request help The button Open project shows the list of all projects which the user is authorized to open The dialogue includes a full text search by means of which projects can be searched Open project The same search methodology is also used in project administration It can here be additionally filtered even according to roof shapes as well as according to specific users from the same working group Some of the table headings may be used with a click to sort the Manage projects table Tip 1 on project administration Projects can also be copied for further editing Input can thus be saved in case of similar types of roofs or the same customer data Copy project Tip 2 on project administration Via the Support button the project can be released for TRITEC Support TRITEC thus has read access to the project Version 2 0 April 2015 Page 4 Subject to change TRITEC Boo Project data are maintained in the project screen The project name and comment text may be entered in the input mask in the area of the master data gt see following illustration item 1 These data can be seen later on the Home screen in the project list In the area of the project address gt see following illustration item 2 entering the project address is assisted via Google To do this simply google the address and select the corresponding object With the arrow gt see following illustration item 3 the
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