Installation and Operating Service Manual
Contents
1. gt BRYAN BOILERS Installation and Operating Service Manual FORCED DRAFT WATER BOILERS Bryan Steam LLC 783 N Chili Avenue Peru IN 46970 Phone 765 473 6651 Fax 765 473 3074 www bryanboilers com Form 2020 Revision Date 5 1 2015 Table of Contents SECTION 1 INSTALLATION INSTRUCTIONS 1 1 Boiler Foundation un aren eren eer senen A EE E O TE EE 1 1 2 OE ae en 1 2 1 3 Uneratng the Boileris ne ternet betadine betitelde 2 1 4 Boiler Connections unne nen eersennens enen ene rsennenervenenrsennnerrs eneen 3 1 4 1 General 1 4 2 Flow Connections 1 4 3 Safety Relief Valve s 1 4 4 Expansion Tank Connection 1 4 5 Drain Connection 1 4 6 Indirect Water Heating Boilers 1 5 Gas Supply Gonneetion arretieren 4 5 1 5 1 Drip Leg 1 5 2 Gas Piping Leak Test 1 5 3 Venting of Gas Train Connection Electri al Gann8EhOMi verderen retstraltta hertekend 5 COMBUSTION AI SUPPIY sissies haw aa eee 5 6 Chimney Flue Pipe and Draft Control eneen eenen 7 22 1 8 1 General 1 8 2 Clearances 1 8 3 Boiler Room Pressurization 1 8 4 Acceptable Vent Types 1 8 5 Vent Connectors Horizontal Runs 1 8 6 Chimney amp Vent Construction Vert Section 1 8 7 Marking of Gas Vents 8 Venting Multiple Appliances on a Common Vent 9 Vent amp Chimney Terminations 10 Automatic Vent Dampers 11 Sizing of Chimney and Vent 1 8 12 Quick Selection for Vent Sizing Charts 1 8 13 Special Applications Burners and Gas TAIN warmen2. 38190 72 14700 17390 20780 22770 25460 29400 32870 36000 38890 44100 46480 50920 55000 Form 2020 20 400 550 720 910 1130 1630 2220 2900 3670 4530 5480 6530 7660 8890 10200 11610 13110 14700 26130 33070 40830 58800 9430 9940 11110 10820 11410 12760 12980 En 35080 310 62360 29210 36970 65740 32660 41340 soo 6210 7510 8940 10490 12170 13970 15900 17950 20120 45290 55910 80510 200 640 870 1140 1450 1790 2580 3510 4590 5810 7170 8680 10330 12120 14060 16140 18360 20730 23240 41320 52290 64560 92970 Revision Date 5 1 2015 Table 1 8 12E K Factor Equivalent Input Correction Factor F3 K Factor F3 K Factor Fs K Factor F3 K Factor F3 K Factor Fs Table 1 8 12F CIRCULAR EQUIVALENTS OF RECTANGULAR BREECHINGS amp STACKS WIDTH HEIGHT INCHES aN BOM Leelee le Pe Pe oe ow Pe Doe ie eee Te Poe Poff fia Pie Do Pe oe oe Pe Doe oo NEEN EN A ENA A EA EN AEN EN ESES PNM T ff wf fo o ffm EEE o a nfo oT To Form 2020 21 Revision Date 5 1 2015 1 8 13 SPECIAL APPLICATIONS FLUE GAS ECONOMIZERS When applying flue gas economizers care must be taken to assure that 1 Proper draft must be maintained This requires that the gas side pressure
3. Inches Inches Inches 0 00943 0 00264 0 00764 0 00236 0 00631 0 00212 0 00531 0 00191 0 00390 0 00133 0 00340 0 00085 0 00298 Form 2020 8 Revision Date 5 1 2015 TABLE 1 8 1C ESTIMATING FLUE GAS EMISSIONS Estimated Emissions Volumetric Flow Rate Per Million Btu hr Input Multiply PPH listed times boiler input divided by 1 000 000 BOILER PARTICULATES NOx CO SOx Hydrocarbons TYPE PPH per PPM PPH per PPH per PPH per MMBH MMBH MMBH MMBH Gas N A N A 0 049 N A 0 010 Fired Oil Fired 0 020 20 0 068 0 286 0 004 1 8 2 CLEARANCES The vent system and draft control devices must be installed so as to achieve the clearances to surfaces outlined in Table 1 2 Minimum Clearances chart in this manual See also Table 1 8 9 for vent clearances All clearances must comply with the National Fuel Gas Code NFPA54 and with all local and state building codes The clearances described in this manual are intended to be general guidelines only additional requirements may occur because of local building design regulations 1 8 3 BOILER ROOM PRESSURIZATION The boiler room must be supplied with adequate air for combustion and for proper operation of draft control devices barometric dampers or draft diverters as outlined in Combustion Air Supply Section 1 7 of this manual WARNING THE BOILER ROOM MUST BE MAINTAINED AT A POSITIVE OR NEUTRAL PRESSURE RELATIVE TO OUTDOORS AT ALL
4. and guards must be in place at all times except during maintenance and servicing 3 1 CLEANING THE BOILER AND SYSTEM NEW SYSTEMS PRE BOIL OUT FLUSHING OF SYSTEM Much of the dirt and contamination in a new hot water system can be flushed out before the boil out of the system First flush the system of waste with clear water The boiler and circulating pumps must be isolated through the successive zones of the system to waste carrying chips dirt pipe joint compound etc with it Follow with a chemical flush The removal of pipe chips and other debris from the system before opening the isolation valves to the boiler and pumps will help to protect this equipment from damage by such debris In combination with system contamination bacteria from ground water boiler water may produce objectionable odors sometimes resembling natural gas It is important to keep these fumes from air intakes which would distribute them throughout the building BOIL OUT PROCEDURE The boil out of the boiler and system is neither difficult nor expensive The chemicals needed for cleaning are readily available Tri sodium phosphate or sodium hydroxide lye are the most commonly used chemicals Use only one type of solution in the system The amount of chemical required will vary according to conditions but one pound per fifty gallons of water is suggested Form 2020 30 Revision Date 5 1 2015 Fill the system with this solution venting all air Then with the
5. and stacks vents Do not apply these calculations to uninsulated vent systems HIGH ALTITUDES At altitudes of 2000 feet and higher atmospheric boilers must be derated The amount of derate required by the National Fuel Gas Code is 4 per 1000 feet above sea level Boilers that are shipped from the factory prepared for these altitudes have the gas orifices properly sized for this derate The altitude and gas Btu content for which the boilers have been constructed is listed on the Equipment List Submittal Data in the boiler manual The boilers will also be provided with a label indicating that they have been prepared for high altitude If a boiler is to be installed at an altitude other than that for which it was factory built orifices must be replaced to properly adjust the gas input Consult the factory or the local Bryan Representative for the proper parts For the purpose of vent system sizing assume full input and determine sizing as if at sea level The derate factor of 4 per 1000 feet above sea level accounts for the increased volume per Btu hr of flue products at high altitude INDUCED DRAFT FANS Occasionally the characteristics of an installation are such that a natural draft vent system will not suffice In such cases induced draft may be used The vent system is then sized with an available pumping action equal to the total theoretical draft plus the static pressure capability of the induced draft fan This will result in a smal
6. or a locking quadrant damper Such devices must be installed and adjusted by a qualified technician 2 5 2 COMBUSTION Refer to the separate burner manual for the procedures for burner adjustments The burner must be adjusted for a smooth lightoff Combustion parameters should be within the appropriate range specified in the above table In no case should the level of CO or the smoke spot reading be allowed to exceed the recommended limit 2 6 OPERATING INSTRUCTIONS 2 6 1 FAMILIARIZATION WITH MANUAL S The user of the boiler must familiarize himself with this manual and the burner manual for those units which are forced draft to be sure he is prepared to operate and maintain the boiler properly The operating instructions should be kept adjacent to the boiler READ THE MANUAL BEFORE ATTEMPTING A START UP 2 7 MAINTENANCE SCHEDULE 2 7 1 POSTING SCHEDULE Post a maintenance schedule in accordance with the recommendations in this manual A copy of a typical schedule is included in this manual Form 2020 29 Revision Date 5 1 2015 Section CARE AND MAINTENANCE WATER BOILERS CAUTION The boiler area should be kept free of combustible materials gasoline and other flammable liquids The boiler and venting system must be kept free of obstructions of the air louvers and draft hood relief openings The following procedures must be conducted as outlined to assure safe operation of the boiler All cover plates enclosures
7. 14 DIAMETER 14 DIAMETER gt En 14 DIAMETER 6 ao 14 DIAMETER FIG 1 8 11 SUGGESTED APPLIANCE VENTING PROCEDURE Form 2020 16 Revision Date 5 1 2015 1 8 12 QUICK SELECTION FOR VENT SIZING CHARTS GENERAL These charts were generated using the procedure described in Chapter 26 of the ASHRAE Equipment Handbook The results are consistent with those of the National Fuel Gas Code The responsibility for assurance of such compliance is that of the system designer and or the system installer All sizing and installation must be checked against such local requirements The sizing herein is applicable to vent systems utilizing double wall listed Type B vent as well as single wall insulated vent with insulation equivalent to double wall insulating value This sizing procedure is not applicable to vent systems utilizing single wall uninsulated vents or vent connectors The sizing information given herein is intended as a general recommendation only Vent sizing and installation must comply with local codes RECTANGULAR VENTS Vent systems may be rectangular as well as circular Table 1 8 12F has been provided to give the circular equivalent of a rectangular duct These equiva
8. 2 2 FIRING RATE ADJUSTMENT GAS METER READINGS 2 2 1 CHECKING BURNER INPUT The burner input rate can be checked by taking readings from the gas meter Please note checking the rate with a meter is the only way to be sure of input Manifold readings are only an approximate value and may vary from unit to unit In order to obtain accurate data there must be no other appliances using gas from the same meter while the burner input rate is being checked The test hand on the meter should be timed for several revolutions The input rate in cubic feet per hour is calculated from this timing The method is described in the Lighting Instructions If the meter is not calibrated for gas temperature and pressure correction factors must be applied to determine correct rate in SCFH standard cubic feet per hour Consult the National Fuel Gas Code ANSI Z223 1 NFPA 54 or the local gas utility for further information Refer to Table 2 2A for correction factors for the gas pressure at the meter Refer to Table 2 2B for the gas temperature correction factors Table 2 2A Pressure Correction Table 2 2B Temperature Correction Gas Pressure at Meter Correction Gas Temp at Correction Factor Factor Meter 2 3 SAFETY SHUT OFF DEVICES FLAME SUPERVISION Refer to Burner Manufacture s Installation Operation Manual for Flame Supervision device instructions 2 4 LIMIT CIRCUIT CUT OUT TEST 2 4 1 PROTECTIVE DEVICES All operating and limit controls and l
9. allow inspection and cleaning 1 4 3 SAFETY RELIEF VALVES A connection is provided in the top of the boiler for the relief valve The relief valve discharge piping must be the same size as the relief valve discharge opening Avoid over tightening as this can distort valve seats All piping from relief valve must be independently supported with no weight carried by the valve 1 4 4 EXPANSION TANK CONNECTIONS A connection is provided in the top of the boiler for connecting piping to the expansion tank This piping should be installed as to avoid air entrapment in the boilers 1 4 5 DRAIN CONNECTION A drain valve must be installed off of the boiler drain connection the same pipe size as this connection to allow draining of the boiler 1 4 6 INDIRECT WATER HEATING BOILERS When the boiler is to be used only for heating potable domestic water or swimming pool water the heating system connections discussed above are capped The relief valve connections are still required Water connections are made only to the indirect heat exchanger s according to the piping drawing included in this manual An automatic boiler fill valve is provided with the boiler This valve must be connected to the fresh water system With some units this connection is made to the heat exchanger at the factory Form 2020 3 Revision Date 5 1 2015 1 5 GAS SUPPLY CONNECTION The installation must conform completely to the requirements of the authority having jurisdi
10. and 15 psig Steam Boilers Not permitted 18 as listed All Steam Boilers over 15 psig Not permitted 36 as listed When a single wall metal pipe passes through an exterior wall constructed of combustible material it must be guarded at the point of passage by a ventilated thimble as described under Use of Thimbles in Section 1 8 5 of this manual Alternatively a non ventilating thimble not less than 18 above and 6 below the roof with the annular space open at the bottom and closed at the top may be used INSPECTIONS OF CHIMNEYS Before connection of a vent connector to a chimney the chimney passageway must be examined to ascertain that it is clear and free of obstructions Cleanouts must be constructed such that they will remain tightly closed when not in use Tee fittings used as cleanouts or condensate drains must have tight fitting caps to prevent entrance of air into the chimney at such points When an existing masonry chimney is unlined and local experience indicates that vent gas condensate may be a problem an approved liner or another vent must be installed When inspection reveals that an existing chimney is not safe for the intended application it must be rebuilt to conform to nationally recognized standards relined with a suitable liner or replaced with a gas vent or chimney suitable for the appliances to be attached SUPPORT OF CHIMNEYS AND VENTS All portions of chimneys must be adequately supported for the design an
11. ceiling plus one opening within 12 inches of the floor Each opening must have a minimum free area of 1 square inch per 4 000 Btu of total input of all air using appliances in the room Example A boiler room having two boilers with 500 000 Btu input would require two openings through an outside wall and each opening must have at least 250 square inches of free area OPENINGS THROUGH VERTICAL DUCTS One duct in the ceiling plus one duct terminating within 12 inches of the floor Each opening must have a minimum free area of 1 square inch per 4 000 Btu of total input of all air using appliances in the room Example A boiler room having four boilers with 250 000 Btu input would require two ducts one in ceiling and one terminating near the floor and each opening must have at least 250 square inches of free area OPENINGS THROUGH HORIZONTAL DUCTS One duct opening within 12 inches of the ceiling plus one duct opening within 12 inches of the floor Each opening must have a minimum free area of 1 square inch per 2 000 Btu of total input for all equipment in the room NOTE No rectangular duct may have a dimension of less than 4 inches Example A boiler room having 1 million Btu total input would require two ducts one in ceiling and one near the floor each opening having at least 500 square inches of free area VENTILATION AIR In addition to air needed for combustion sufficient air must be supplied for ventilation including air require
12. in the Boiler Manual All such devices must be operationally tested to assure reliable operation of the boiler and system Form 2020 27 Revision Date 5 1 2015 2 5 RECOMMENDED DRAFT AND COMBUSTION READINGS FORCED DRAFT GAS FIRED BOILERS DRAFT AT BOILER OUTLET iw c 0 25 TO 0 06 9 0 TO 0 10 TO 0 06 9 0 TO 0 10 TO 0 10 9 0 TO BOILER SERIES AB C D E M R B L CO HIGH FIRE HIGH FIRE ppm NO FORCED DRAFT OIL FIRED BOILERS DRAFT AT BOILER OUTLET i w c 1 5 TO 0 0 TO 0 0 TO 1 5 TO 1 5 TO Co HIGH FIRE HIGH FIRE ppm NO NOTE THE VALUES FOR CO AND O ARE SHOWN FOR HIGH FIRE ONLY THE VALUES FOR LOW FIRE OR MID RANGE WILL GENERALLY BE LOWER PARTICULARLY FOR ATMOSPHERIC GAS FIRED BOILERS DRAFT SHOULD BE MEASURED APPROXIMATELY 24 FROM TOP OF BOILER BEFORE ANY DRAFT CONTROL Form 2020 28 Revision Date 5 1 2015 2 5 1 DRAFT ADJUSTMENT FORCED DRAFT BOILERS Draft adjustments are generally not necessary on forced draft boilers The draft must be measured as part of the start up procedure The measured draft at the boiler flue should fall within the recommended range specified in the appropriate table On some installations the draft may be excessive due to a high chimney In these cases the draft should be adjusted to within the recommended range specified in the appropriate table above This may be done using a barometric damper a restrictor
13. taat then tas 23 0 Procedures to be Followed Before Placing Boiler in Operating 23 1 10 1 Hydrostatic Test of Boilers and System 1 10 2 Test of Gas Piping _ _t t oo ND 1 8 1 8 1 8 1 8 3 SECTION 2 START UP AND OPERATION 2 1 Firing Rate Adjustment sententia Mia nde 24 2 2 Firing Rate Adjustment Gas Meter Readings nnn 25 2 2 1 Checking Burner Input 2 3 Safety Shut Off Devices Flame Supervision annae eneen 25 Form 2020 i Revision Date 5 1 2015 Table of Contents cont 2 4 Limit Circuit Cut Out Test annen eneen eenen eneen 2 4 1 Protective Devises 2 4 2 Water Temperature Operating Control 2 4 3 Outdoor Reset Controls 2 4 4 High Limit Control 2 4 5 Pool Temperature Control 2 4 6 Coil Limit Control 2 4 7 Low Water Cut Off s 2 4 8 Combination Low Water Cut Off amp Feeder 2 4 9 Other Controls 25 Recommended Draft and Combustion Readings 2 5 1 Draft Adjustment Forced Draft Boilers 2 5 2 Combustion Adjustments Forced Draft Burners 2 6 Operating Instructions zie aren eene 2 6 1 Familiarization with Manual s 2 7 Maintenance Schedule anar ernnn eenen eeenne rennen SECTION 3 CARE AND MAINTENANCE 3 1 Cleaning the Boiler and System New Systems 3 2 Replacement Boiler Installations Protection Against Corrosion amp Sediment nnn 3 3 Boiler Water Treatment c
14. the allowable range of vent pressure for each series The DR AB HE AB EB RV HE RV and RW series boilers are designed for pressurized vent systems All others require a neutral pressure SINGLE WALL METAL PIPE Single wall metal pipe must be of galvanized sheet or other approved noncombustible corrosion resistant material with minimum thickness per Table 1 8 4 from the National Fuel Gas Code NFPA 54 Single wall metal pipe should be insulated to prevent excessive heat in the boiler room and to avoid ignition and spillage problems as well as corrosion from excessive condensation MASONRY METAL AND FACTORY BUILT CHIMNEYS Installation of factory built vents and chimneys must comply with the vent listing with the vent manufacturer s instructions and with adherence to the codes and clearances as outlined herein Masonry or metal chimneys must be built and installed in accordance with nationally recognized building codes or standards MASONRY CHIMNEYS FOR RESIDENTIAL APPLICATIONS MUST BE LINED WITH FIRE CLAY FLUE LINING KX C315 OR THE EQUIVALENT WITH THICKNESS NOT LESS THAN 5 16 INCH OR WITH A LINER OF OTHER APPROVED MATERIAL THAT WILL RESIST CORROSION SOFTENING OR CRACKING FROM FLUE GASES AT TEMPERATURES UP TO 1 800 F EXISTING CHIMNEYS SHOULD BE INSPECTED FOR UNSAFE CONDITIONS SUCH AS DETERIORATED MASONRY AND EXCESSIVE SOOT OR OTHER BLOCKAGE OR POTENTIAL BLOCKAGE SEE ALSO SECTION 1 8 6 EXISTING CHIMNEYS MUST BE PROPERLY S
15. F gas fuel even at 70 F outdoor temperature Reference Section 3 4 Also refer to the literature on the outdoor reset control for further information 2 4 4 HIGH LIMIT CONTROL At least one additional temperature control is provided as the high limit control It is set at a temperature above the operator to act as a back up should the operator fail The high limit control must be operationally tested With the boiler operating decrease the temperature setting of the Limit Control below the current temperature of the boiler The boiler should cycle off Restore the high limit control setting to normal pushing the reset button if it is a manual reset type The boiler should now cycle on 2 4 5 POOL TEMPERATURE CONTROL On swimming pool heating boilers an additional temperature control is installed with its sensing bulb in the pool circulation line sensing the water temperature coming from the pool to cycle the boiler so as to control the pool water temperature Test this control by reducing the temperature of the control below the temperature of the pool water The boiler should cycle off Restore the setting of the control and the boiler should cycle on Form 2020 26 Revision Date 5 1 2015 2 4 6 COIL LIMIT CONTROL On indirect water heating boilers an additional temperature limit control is installed to limit the temperature leaving the heat exchanger It must be tested in the same manner as the boiler High Limit control 2 4 7 LOW
16. INGLE WALL METAL VENT PIPE USED TO VENT STEAM BOILERS OPERATING OVER 50 PSIG MUST NOT PASS THOUGH WALLS OR PARTITIONS CONSTRUCTED OF COMBUSTIBLE MATERIAL 1 8 6 CHIMNEY amp VENT CONSTRUCTION VERTICAL SECTION INSTALLATION OF FACTORY BUILT SYSTEMS Listed gas vents and factory built chimneys must be installed in accordance with their listings and the manufacturer s instructions Vents and venting systems passing through roofs must extend through the roof flashing roof thimble or roof jack INSTALLATION OF MASONRY OR METAL CHIMNEYS Masonry or metal chimneys must be built in accordance with nationally recognized building codes and standards INSTALLATION OF SINGLE WALL GAS VENTS Single wall metal pipe may be used only for runs directly from the space in which the appliance is located through the roof or exterior wall to the outer air A pipe passing through a roof must extend without interruption though the roof flashing roof jack or thimble Single wall metal pipe must not originate in any unoccupied attic or concealed space Additionally it must not pass through any attic inside wall concealed space or through any floor Minimum clearance must be maintained between the single wall metal pipe and any combustible surface as outlined in Table 1 8 6 Form 2020 12 Revision Date 5 1 2015 Table 1 8 6 MINIMUM REQUIRED DISTANCE FROM COMBUSTIBLE EQUIPMENT TYPE MATERIAL Listed Vent Single Wall Metal Pipe Factory Built Chimney Water
17. IZED FOR THE FLUE GAS LOADING TO BE USED THAT IS IF AN EXISTING CHIMNEY IS USED FOR A SMALLER TOTAL INPUT THAN ITS ORIGINAL DESIGN A LINER OR VENT IS REQUIRED THE USE OF A PROPERLY SIZED GAS VENT OR LINER WILL PREVENT DETERIORATION OF THE CHIMNEY DUE TO THE EXCESSIVE CONDENSATION THAT RESULTS ON OVERSIZED SYSTEMS WARNING UNDER NO CIRCUMSTANCES SHOULD THE FLUE PIPE BE CONNECTED TO THE CHIMNEY OF AN OPEN FIREPLACE Form 2020 10 Revision Date 5 1 2015 TABLE 1 8 4A TABLE 1 8 4B WATER BOILER amp STEAM BOILERS TO 50 PSIG STEAM BOILERS OVER 50 PSIG Diameter of Minimum Thickness Diameter of Minimum Thickness Connector Inches Inch Gauge Connector Inches Inch Gauge 6 to 10 i 14 and less 0 053 16 10 to 12 l 14to 16 0 067 14 12to 16 f 16 to 18 0 093 12 16 18 0 123 10 1 8 5 VENT CONNECTORS HORIZONTAL RUNS CONSTRUCTION Vent connectors may be of any of the acceptable constructions listed in this manual AVOID UNNECESSARY BENDS The vent connector must be installed so as to avoid turns or other construction features which create excessive resistance to flow of flue gases JOINTS Vent connectors must be firmly attached to draft diverter outlets or boiler flue collars by sheet metal screws or other approved means Vent connectors of Type B vent material must be assembled in accordance with the vent manufacturer s instructions Joints between sections of c
18. TIMES EXHAUST FANS OR CONNECTIONS FROM THE BOILER ROOM TO ZONES OF NEGATIVE PRESSURE AIR DUCTS NEGATIVE PRESSURE ROOMS ETC WILL CAUSE NEGATIVE PRESSURE IN THE BOILER ROOM SUCH CONDITIONS WILL CAUSE HAZARDOUS OPERATION OF THE BOILER AND INTRODUCTION OF COMBUSTION PRODUCTS INTO THE BUILDING AIR IF THE BOILER ROOM MUST BE UNDER A NEGATIVE PRESSURE AT ANY TIME AN INDUCED DRAFT FAN WILL BE REQUIRED FURTHER THE BOILER MUST BE PROVIDED WITH A BAROMETRIC DRAFT CONTROL THE FAN MUST BE INTERLOCKED WITH THE BOILER AND A DRAFT PROVING SWITCH MUST BE INSTALLED TO PREVENT OPERATION OF THE BOILER IF THE FAN SHOULD FAIL TO OPERATE IT ALSO MAY BE ADVISABLE TO INSTALL AN AUTOMATIC VENT DAMPER IN THE VENT SYSTEM TO PREVENT BACKFLOW THROUGH THE VENT SYSTEM DURING BOILER OFF CYCLES SEE FOLLOWING SECTION ON AUTOMATIC VENT DAMPERS Form 2020 9 Revision Date 5 1 2015 1 8 4 ACCEPTABLE VENT TYPES LISTED GAS VENTS Listed gas vents must be applied only on those applications for which they are listed Type B gas vents are NOT listed for use on forced draft appliance vent systems Installation of these vents must comply with the vent listing with the vent manufacturer s instructions and with complete adherence to the codes and clearances as outlined previously PRESSURIZED VENT SYSTEMS Some Bryan Boilers unless specifically fitted for the application are not suitable for operation on a pressurized vent system Refer to Section 2 of this manual for
19. WATER CUT OFF S Most boilers are supplied with at least one float or electric probe type control designed to sense the level of the water in the boiler It operates to shut off the boiler if the water level drops below its sensing level The low water cut off controls must be operationally tested by manually lowering the boiler water level by opening the drain valve The boiler should cycle off when the water level drops below the control point of the low water cut off When the water level is restored the boiler should cycle back on Depress the manual reset button of devices which require manual reset in order to restore the boiler to operation Carefully read the enclosed literature on the low water cut off controls particularly installing operating and servicing 2 4 8 COMBINATION LOW WATER CUT OFF amp FEEDER The low water cut off feeder supplied with some boilers serves as a low water cut off see above and also causes make up water to be added to the boiler should the water level drop below its control point This type of control must be operationally tested as described in Section 2 4 1 and also to assure that the make up water is introduced as needed Carefully read the enclosed literature on the Low Water Cut off controls particularly installing operating and servicing 2 4 9 OTHER CONTROLS Additional controls as required for the particular installation may also be provided Refer to the literature on these devices included
20. and after the boiler has been operated for some time Replace tube access panels before proceeding to start boiler 1 10 2 TEST OF GAS PIPING Reference gas system test under Section 1 5 Gas Connection in this manual Form 2020 23 Revision Date 5 1 2015 Section START UP AND OPERATION FORCED DRAFT WATER WARNING IMPROPER SERVICING AND START UP OF THIS EQUIPMENT MAY CREATE A POTENTIAL HAZARD TO EQUIPMENT AND TO OPERATORS OR PERSONS IN THE BUILDING SERVICING AND START UP MUST BE DONE ONLY BY FULLY TRAINED AND QUALIFIED PERSONNEL CAUTION BEFORE DISCONNECTING OR OPENING ANY FUEL LINE OR BEFORE CLEANING OR REPLACING PARTS OF ANY KIND TAKE THE FOLLOWING PRECAUTIONS Turn OFF the main fuel shutoff valves including the pilot gas cock if applicable If the burner is a multiple fuel type shut OFF all fuel supplies Turn OFF all electrical disconnects to the burner boiler and any other equipment or systems electrically interlocked with the burner or boiler All cover plates enclosures and guards must be in place at all times except during maintenance and servicing 2 1 FIRING RATE ADJUSTMENT Proper procedures must be followed carefully before putting the boiler in operation Failure to do so will present severe hazards to equipment operating personnel and building occupants Refer to Burner Manufacture s Installation Operation Manual for firing rate adjustment Form 2020 24 Revision Date 5 1 2015
21. ccccccccecccecccceecceeeceeeeeseeeeeeeeseeeeeess 3 4 External Fire Side Cleaning nn anennenenennnneeenennneereen 3 5 Suggested Maintenance Schedule nennen Form 2020 ii Revision Date 5 1 2015 Section Installation Instructions Forced Draft Water Boilers Note Please read the entire instruction manual before attempting installation Insurance and local or state regulatory codes may contain additional or more stringent requirements than those contained in this manual Installation must conform to these codes and any other authority having jurisdiction 1 1 BOILER FOUNDATION Before uncrating the boiler location should be prepared The boiler should set upon a good level concrete floor If the boiler is not level or the floor is not in good condition a concrete foundation should be built the dimensions being larger than the outside dimensions of the boiler base DO NOT INSTALL BOILER ON COMBUSTIBLE FLOORING IMPORTANT If the boiler is installed directly on a concrete floor where it is important that the floor be kept cool Such as an upper floor or mezzanine or when sitting over wiring conduits set the boiler up on insulating tile or steel framework so that air may circulate underneath 1 2 CLEARANCES See Table 1 2 for minimum clearances to wall ceilings or obstructions The clearances in Table 1 2 are intended as a general recommendation only Local codes must be applied to specific installatio
22. circulating pump running bring the system to design or operating temperature After circulating water for two to three hours the system should be drained completely and refilled with fresh softened water Usually enough of the cleaning solution will adhere to the piping to result in an alkaline solution satisfactory for operation A pH reading between 7 and 8 is preferred If necessary to increase the pH a small amount of cleaner may be added IMPORTANT The boil out procedure outlined must be performed by or under the direct supervision of a qualified technician The chemicals used present a hazard of burns and physical injury if mishandled Always use suitable face mask goggles protective gloves and garments when handling caustic chemicals Do not permit the chemical to come into contact with skin or clothing Always follow the safety precautions on the container s label Add chemicals slowly and in small amounts to prevent excessive heat and agitation DRAINING THE SYSTEM A clean neutral hot water system should not be drained except for an emergency or when unavoidable for servicing of equipment See Section 3 3 for water treatment required when refilling 3 2 REPLACEMENT BOILER INSTALLATIONS PROTECTION AGAINST CORROSION amp SEDIMENT CLEAN OR REPLACE ALL SYSTEM PIPING AND HEATING UNITS Arrange for chemical or mechanical cleaning of the entire system A chemical treatment company should be consulted for the proper means of any chem
23. ction or in the absence of such requirements shall conform in the U S to the current National Fuel Gas Code ANSI Z223 1 or in Canada to the current Installation Code for Gas Burning Appliances and Equipment CAN CGA B149 1 or Oil Burning Equipment CSA B139 and applicable regional regulations for the class which should be followed carefully in all cases Drip leg must be installed on gas supply piping Consult the local gas utility company for inspection and authorization of all gas supply piping and flue connections The regulator vent line must be vented to outside of building on any boiler equipment with electric gas pilot ignition 1 5 1 DRIP LEG A drip leg or sediment trap must be installed in the gas supply line See Fig 1 5A The gas line must be connected to a supply main at least as large as the gas train connection at the boiler This connection should be made with a union so that the boiler gas train components and burner may be easily removed for service 1 5 2 GAS PIPING LEAK TEST After completion of the gas piping hookup the installation must be checked for leaks using a soap and water solution Disconnect the boiler and gas train from the gas supply piping during any pressure testing of the gas supply system 1 5 3 VENTING OF GAS TRAIN COMPONENTS Gas pressure regulator The regulator must be vented to the outside air using minimum 1 4 tubing or pipe The vent line should terminate in a downward direction
24. d for comfort and proper working conditions for personnel in the boiler room In colder climates provision should also be made to heat the boiler room if necessary for personnel comfort CAUTION Protection from combustion air contamination Where corrosive or flammable process fumes are present in the vicinity of the boiler room or the air stream for the combustion air supply it is essential that suitable means be provided for their safe disposal The boiler room and the combustion air supply must not be exposed to the fumes Such fumes include but are not limited to carbon monoxide hydrogen sulfide ammonia chlorine and halogenated hydrocarbons NOTE Halogenated hydrocarbons are particularly injurious and corrosive after exposure to high temperatures Form 2020 6 Revision Date 5 1 2015 1 8 CHIMNEY FLUE PIPE amp DRAFT CONTROL 1 8 1 GENERAL CODE COMPLIANCE The installation must conform to the requirements of NFPA 54 the National Gas Code ANSI Z223 1 Part 7 Venting of Equipment or to the applicable requirements of all local building codes For factory built and listed chimney systems such as type B vent consult the system manufacturer s instructions for correct installation procedures Gas vents may be of any of the construction types listed in this manual No portion of a venting system may extend into or pass through any circulating air duct or plenum MINIMUM SAFE PERFORMANCE Venting systems must be
25. d weight of the materials employed Listed factory built chimneys must be supported and spaced in accordance with their listings and the chimney or gas vent manufacturer s recommendation THE GAS VENT OR CHIMNEY MUST BE SUPPORTED INDEPENDENTLY OF THE BOILER TOP 1 8 7 MARKING OF GAS VENTS In those localities where solid and liquid fuels are used extensively gas vents must be plainly and permanently identified by a label reading This gas vent is for appliances which burn gas only Do not connect to incinerators or solid or liquid fuel burning appliances This label must be attached to the wall or ceiling at a point near where the gas vent connector enters the wall ceiling or chimney The authority having jurisdiction must determine whether their area constitutes such a locality 1 8 8 VENTING MULTIPLE APPLIANCES ON A COMMON VENT COMMON GAS VENT When two or more openings for vent connectors are provided in a chimney or gas vent the opening should be at different levels They should never be opposite one another When two vent connectors enter the same gas vent or chimney the smaller of the two should enter at the highest position possible Form 2020 13 Revision Date 5 1 2015 PRESSURIZED VENTS OR VENT CONNECTORS DO NOT CONNECT THE FLUE OF AN APPLIANGE VENTED BY NATURAL DRAFT TO A VENT SYSTEM THAT OPERATES UNDER A POSITIVE PRESSURE SOLID FUEL APPLIANCE VENTS Gas appliances must not be vented to a vent or a chimney that serves a s
26. designed to develop positive flow adequate to remove flue gases to the outside atmosphere Guidelines are provided in this manual and in the National Fuel Gas Code NFPA 54 for sizing and design of flue gas venting system For additional reference to good practice in vent design refer to the Chimney Gas Vent and Fireplace Design chapter of the ASHRAE Equipment Handbook OUTSIDE VENTS AND CHIMNEYS Outside uninsulated single wall pipe is not recommended for use in cold climates for venting gas fired appliances since temperature differentials may cause corrosion in such pipe as well as poor draft on start ups When local experience indicates that condensate may be a problem provisions should be made to drain off the condensate in the gas vent or chimney ESTIMATING FLUE GAS FLOW RATE ACEM Flue gas volumetric flow rate in SCFM standard cubic feet per minute and ACFM actual cubic feet per minute can be estimated by using the information in 1 8 1A Divide the Total Input of appliances connected to the chimney or vent by 1000 Then multiply this result times the factor listed in the SCFM and ACFM table The ACFM data is required for determining stack exit velocity and induced draft fan requirements ESTIMATING STACK EXIT VELOCITY First determine the ACFM for the stack as described above Multiply the total ACFM times the Velocity Factor from the Velocity Table in Table 1 8 1B for the stack diameter used The result is the Stack Exit Velocit
27. drop be considered and that the economizer exchanger must be designed so as to allow cleaning 2 The vent system materials must be considered regarding resistance from corrosion that might result from the lower flue gas temperature 3 In general it is recommended that the boiler manufacturer be consulted when a flue gas economizer is to be added HIGH EFFICIENCY APPLIANCES High efficiency appliances require special consideration in vent design because of the reduced stack gas temperatures Under no circumstances can a condensing type appliance be vented into the same vent system with other appliances The vent system for such appliances must be provided by or specified specifically by the manufacturer of the condensing appliance High efficiency non condensing appliances should generally be installed only on vent systems that are resistant to corrosion from flue gas condensate This generally requires stainless steel vent construction 1 9 BURNERS AND GAS TRAINS GENERAL Refer to separate manual on the forced draft burner for start up and adjustment procedures Do not attempt to start burner when excess oil has accumulated or when the combustion chamber is full of gas or if chamber is very hot FUEL CONNECTIONS Gas supply connections must comply with the National Fuel Gas Code NFPA 54 Oil Supply connections must comply with NFPA 31 Any additional local or state codes must also be adhered to Oil supply lines must be sized for t
28. eakage tests on pilot and main gas or main oil fuel valves as specified in manufacturer s instructions gt Check operating control high limit low fire start control and low water cutoff as specified in manufacturer s instructions gt Check air atomizing interlock fuel valve interlock switch purge switch burner position interlock fuel changeover control and combustion safety control as specified in burner manual The boiler should be checked at least yearly by the local gas utility company The flue gas passages and the exterior surfaces of the boiler tubes should be inspected at least annually Any accumulation of soot or debris should be thoroughly cleaned out If the yearly inspection of the boiler tube surfaces reveals a build up of soot carbon or rust the tubes surfaces should be thoroughly brushed Failure to do so may result in fire or asphyxiation hazards The boiler pressure vessel and piping should be checked annually Form 2020 34 Revision Date 5 1 2015
29. eration if the dampers are closed Combustion air openings must never be blocked or obstructed in any manner The boiler room must be at a positive or neutral pressure relative to the outdoors A negative in the boiler room will result in downdraft problems and incomplete combustion due to the lack of air WARNING Failure to provide an adequate air supply will result in boiler damage and hazardous conditions in the building fire and asphyxiation hazard as well as equipment damage Form 2020 5 Revision Date 5 1 2015 COMBUSTION AIR Complete combustion of natural or propane gas requires approximately ten cubic foot of air at sea level and 70 Deg F for each 1 000 Btu of boiler input In reality additional air is required to achieve complete combustion Air is also required for the proper operation of the appliance draft diverter or barometric damper The combustion air opening recommendations below are designed to provide the air needed for atmospheric gas fired boilers that are equipped with either draft diverters or barometric damper Combustion air openings for boilers which are equipped with forced draft burners may be reduced to 70 of that required for atmospheric gas fired boilers This is because the forced draft boiler is not equipped with a draft diverter so no air is required for draft control COMBUSTION AIR OPENINGS AREA REQUIRED OPENINGS DIRECTLY THROUGH OUTSIDE WALL One opening within 12 inches of the
30. ght Side 18 24 18 24 32 32 These clearances are general minimum clearances Local codes may dictate larger clearances Form 2020 2 Revision Date 5 1 2015 1 3 UNCRATING THE BOILER Uncrate the boiler near its permanent location Leave it on the bottom crating until ready to place it permanently Leave the plastic shroud on the boiler until all piping work is complete cutting holes in the plastic for access to connections Remove the bolts attaching the boiler to the crate at the underside of the bottom crating Lift or slide the boiler off of the bottom crating into position Be careful not to tip the boiler up on one corner or side which could cause damage to jacket 1 4 BOILER CONNECTIONS 1 4 1 GENERAL Do not run any pipes along the access panel side of the boiler Maintain clearances as shown on the dimensional drawing for servicing of the boiler tubes Provide at least 36 from the gas train and burner unless a larger dimension is indicated on the dimensional All piping should be designed and installed to avoid any loadings on the boiler connections or piping 1 4 2 FLOW CONNECTION The system supply and return flow connections are shown on the boiler dimensional drawing in this manual A gate valve and union should be on the boiler outlet and inlet lines This allows the boiler to be isolated from the heating system for draining and servicing Use a tee nipple and cap on the boiler inlet line to
31. he circulation rate of the burner pump This is referred to as the suction gear capacity of the pump If a transfer pump is used it must have a pumping capacity no less than the total suction gear capacity of all burner pumps on the system Refer to Burner Manual for the suction gear capacity of standard oil pumps Two pipe oil systems are recommended in all cases although a one pipe system might be acceptable on smaller boilers under 6 gph Two pipe systems tend to have fewer problems with air entrainment in the oil Air in the oil will cause nuisance problems and delayed ignition Form 2020 22 Revision Date 5 1 2015 1 10 PROCEDURES TO BE FOLLOWED BEFORE PLACING BOILER IN OPERATION 1 10 1 HYDROSTATIC TEST OF BOILERS AND SYSTEM After completing the boiler and burner installation the boiler connections fittings attachments and adjacent piping must be inspected for leaks by filling the unit with water The pressure should be gradually increased to a pressure just below the setting of boiler safety relief valve s Remove the boiler tube access panels see dimensional drawing in this manual Inspect the tube to header joints to be certain that all tube fittings are sealed This is necessary because although the boiler is hydrostatically tested at the factory minor leaks in fittings and at attachments can develop from shipping vibration or from installation procedures It is often necessary to retighten such fittings after installation
32. ical cleaning Replace any piping considered to be deteriorated beyond safe or cleanable condition Flush the system clean being certain to isolate the boiler DO NOT FLUSH THE SYSTEM THROUGH THE BOILER NOTE For some old systems there is a reluctance to clean the piping because of possible leaks occurring in badly corroded lines Should the customer refuse cleaning it is necessary to install filtration equipment Install either a fibrous filter or a centrifugal filter in the boiler return piping This will collect and remove sediment from the system A booster pump may be required to overcome the additional pressure drop introduced in the line by the filter When filling the system provide chemical treatment as outlined in Section 3 3 CAUTION Failure to properly clean the system or to install mechanical sediment removal equipment can result in tube blockage and severe corrosion plus damage to pumps controls and air removal devices Form 2020 31 Revision Date 5 1 2015 Inspect repair as necessary or replace system air control devices Install gauge glasses on air expansion tanks and install a tank fitting in the system connection to the tank Install a strainer in boiler return piping 3 3 BOILER WATER TREATMENT PURPOSE OF WATER TREATMENT Water treatment is required for satisfactory operation of the boiler It must be devised to prevent depositing of scale and corrosion from acids oxygen and other s
33. its equipped with firing rate control verify it is functioning correctly by adjusting control and observing if input changes accordingly gt Make visual inspection of pilot flame Check pilot flame signal strength and main flame operation as specified in burner manual Form 2020 33 Revision Date 5 1 2015 gt Check pilot and main fuel valves for correct operation Open limit switch make audible and visual check check valve position indicators and check fuel meters if supplied gt Confirm boiler area is free of combustible materials and that there is nothing obstructing air openings relief openings etc gt Check combustion safety controls for flame failure and flame signal strength as specified in manufacturer s instructions in the burner manual gt Check all limit controls as specified in Section 2 4 of this manual gt Check float low water cutoff as described above MONTHLY gt Make visual inspection of linkage and proper operation of flue vent stack or outlet dampers Check draft as specified in Section 2 of this manual gt Check float low water cutoff as described above gt Check low draft fan air pressure and damper position interlocks as specified in burner manual gt Check high and low gas pressure interlocks Refer to manufacturer s instructions for correct procedure gt Check high and low oil pressure interlocks Refer to manufacturer s instructions for correct procedure ANNUALLY gt Perform l
34. lent values account for the higher pressure drop per cross sectional area for rectangular ducts STEP 1 EQUIVALENT INPUT DRAFT CONTROL FACTOR Determine the boiler system Draft Control Factor F1 from Table 1 8 12A Determine the boiler or total system input in MBH This is done by dividing the boiler or total system input in Btu hr by 1000 Multiply the total input times factor F1 The equivalent input without altitude correction is then MBH x F eq 12A TABLE 1 8 12A DRAFT CONTROL FACTOR F Multiply factor times input in MBH Boiler Type Factor F4 Atmospheric with Draft Hood Atmospheric with Barometric Forced Draft Gas or Oil Form 2020 17 Revision Date 5 1 2015 STEP 2 EQUIVALENT INPUT ALTITUDE FACTOR Determine the boiler system Altitude Correction Factor F2 from Table 1 8 12B Multiply the boiler or total system input times factors F2 and F1 for the equivalent input Table 1 8 12B ALTITUDE CORRECTION FACTOR Fo Multiple factor times sea level Input MBH 0 to 1999 2000 2500 3000 3500 4000 4500 5000 5500 The altitude correction factor F2 for atmospheric boilers is equal to 1 because their inputs are already derated for altitude The equivalent input with corrections for altitude is MBH x F1 x F2 eq 12B STEP 3 SELECT TRIAL DIAMETER Determine the NET STACK HEIGHT for the vent The net stack height is the vertical distance from the top of the at
35. ler diameter vent than for a natural draft system Sizing of induced draft fans should be done using the recommendations of the fan manufacturer and the ASHRAE Handbook MULTIPLE APPLIANCE INSTALLATIONS Bryan recommends that boilers and other gas appliances be individually vented when possible See figure 1 8 11A Individual venting provides better draft control and fuel efficiency and is less likely to cause condensation in the system When individual venting is not possible boilers may be vented to a common breeching vent connector See Fig 1 8 11B for recommended design of such a system Note that connections of individual boiler or appliance vents into the common breeching should be done with 45 Deg F elbows and not by bullheading directly into the vent connector at 90 Deg F angles Bullhead connections generally cause excessive turbulence and poor draft conditions On vent connectors serving multiple appliances the diameter of the piping should be increased at each appliance s entrance so as to provide a relatively constant flue gas velocity through the vent system Using a constant diameter breeching will often result in poor draft at the outermost appliances Fig 1 8 11A Fig 1 8 11B LA 24 DIAMETER LA 14 DIAMETER 14 DIAMETER IE et mt T TE DIANETER 7 ae OMETE 7 7 he A 14 DIAMETER F 14 DIAMETER 14 DIAMETER
36. low resistance conical cap may be used See Fig 1 8 9 for typical dimensions The diameter of this type cap should be twice the vent diameter The cap must be securely positioned on the vent such as to provide a clearance of one vent diameter above the vent exit Figure 1 8 9 2xDIA lt a DIA NEE eee IA 1 8 10 AUTOMATIC VENT DAMPERS ONE APPLIANCE ONLY An automatic vent must be installed such that it serves only one appliance vent that to which is properly interlocked LISTING REQUIREMENTS Automatic vent dampers if used must be of a listed type INSTALLATION The damper installation must comply with the National Fuel Gas Code NFPA 54 The installation must also comply with the automatic vent damper listing the damper manufacturer s instructions and all applicable local or state building codes AUTOMATIC VENT DAMPERS MUST BE INSTALLED ONLY BY QUALIFIED SERVICE TECHNICIANS FAILURE TO PROPERLY INSTALL A VENT DAMPER WILL CREATE A SEVERE HAZARD PERFORMANCE TEST The damper must be tested after installation to assure its proper and safe operation AUTOMATIC VENT DAMPERS MUST BE IN THE OPEN POSITION AT ANY TIME THE APPLIANCE MAIN GAS VALVE IS ENERGIZED Form 2020 15 Revision Date 5 1 2015 1 8 11 SIZING OF CHIMNEY AND VENT The flue system calculations which follow in Section 1 8 12 are applicable to double wall or insulated single wall breechings vent connectors
37. mospheric boiler draft control to the top of the stack On forced draft boilers it is the distance from the boiler flue connection to the top of the stack Find the vent of TRIAL STACK DIAMETER Enter Table 1 8 12C at the Net Stack Height column equal to the system net stack height Then proceed down the column to the input which is just larger than the Equivalent Input of the system Read the Trial Stack Diameter in the left hand column NOTE This is only a trial diameter Proceed to Step 4 to calculate the system k factor to determine the actual stack diameter required Form 2020 18 Revision Date 5 1 2015 STEP 4 CALCULATE SYSTEM K FACTOR The system k factor accounts for the pressure drop through fittings and vent piping It is calculated by adding up the individual k factors for each of the fittings plus the k factor for the vent pipe s From Table 1 8 15D find the k factors for each of the elbows tee fittings draft regulators etc in the system Then calculate the vent piping k factor from the formula kpiping 0 4xL D eq 12C L total length of piping in feet D diameter of piping in inches Add all the k factors together to determine the total system k factor ktotal kpiping kfittings eq 12D NOTE On multiple appliance systems multiply the k factor times 1 5 This is required only on atmospheric boiler vent systems not on forced draft systems Table 1 8 12D Vent Fitting k Factors Vertical Draft Hood 1 50 Low Resis
38. ns and the minimum clearances established accordingly Provisions must also be made for service accessibility and clearance for piping and electrical connections Do not obstruct combustion air and ventilation openings with piping or any other construction All boilers must be installed in a space that is large compared to the boiler NOTE ADHERE TO ALL APPLICABLE LOCAL CODES REGARDING BOILER INSTALLATION AND CLEARANCES Form 2020 1 Revision Date 5 1 2015 Illustration 1 2 and Table 1 2 Minimum Clearances NOTE These boilers are intended to be installed in a room that is large compared to the size of the boiler They are not intended for alcove installation and are suitable for installation on non combustible flooring only Boiler Boiler AB HEAB CLM HECLM RV EB amp HERV Series RW Series DR Series Water Steam Steam over Water Steam Steam over Water Steam Steam over DIM Description to 50 50 to 50 50 to 50 50 A En above top 18 24 18 24 18 24 B ae 48 48 48 48 48 48 Cy From chimney or vent collector measured horizontally 18 24 18 24 18 24 Cy From chimney or vent collector measured 18 24 18 24 18 24 vertically D Fearo boller 18 24 18 24 18 24 opposite burner end EL Left Side Tube access side on standard 24 24 32 32 32 32 construction Er Ri
39. olid fuel burning appliance 1 8 9 VENT AND CHIMNEY TERMINATIONS HEIGHT ABOVE ROOF AND OBSTACLE WATER BOILERS AND LOW PRESSURE STEAM BOILERS No less than 3 feet above the roof and no less than 2 feet above any parapet or obstacle closer than 10 feet from the vent outlet Reference NFPA 211 HIGH PRESSURE OVER 15 PSIG STEAM BOILERS No less than 10 feet higher than any portion of any building within a distance of 25 feet from the vent Reference NFPA 211 MINIMUM HEIGHT ABOVE DRAFT CONTROL Chimneys and gas vents must extend at least 5 feet above the highest connected draft diverter outlet barometric draft control or any appliance flue outlet CLEARANCE FROM AIR INLETS The vent or chimney must terminate no less than 3 feet above any forced air inlet within a distance of 10 feet It must terminate no less than 1 foot above or 4 feet below or 4 feet horizontally from any door window or gravity air inlet into a building CLEARANCE FROM PUBLIC WALKWAYS The vent exit of a mechanical draft system must be at least 7 feet above grade when located next to public walkways PROTECTION OF BUILDING MATERIALS FROM POSSIBLE CORROSION OR DISCOLORATION FROM FLUE PRODUCTS The products of combustion from gas or oil contain potentially corrosive gases and high temperatures For this reason the chimney or vent exit must be designed to prevent exposure of the building materials to the flue products Failure to do so may result in deteriora
40. onnector piping must be fastened using sheet metal screws or other approved means SLOPE OR VENT CONNECTOR The vent connector must be installed without any dips or sags and must slope upward at least 1 4 inch per foot LENGTH OF VENT CONNECTOR The vent connector must be as short as possible and the boiler close as practical to the chimney or vent The horizontal run of an uninsulated vent connector to a natural draft chimney or vent servicing a single appliance must not be more than 75 of the height of the chimney or vent above the vent connector The horizontal run of an insulated vent connector to a natural draft chimney or vent servicing a single appliance must not exceed 100 of the height of the chimney or vent above the vent connector SUPPORT OF VENT CONNECTOR The vent connector must be supported in accordance with the vent manufacturer s instructions and listing and with all applicable codes Support should also be independent of the boiler or the draft diverter when used The vent connector must be supported for the design and weight of the materials employed maintain clearances prevent physical damage and separation of joints and to prevent sagging of the vent connector Supports should usually be overhead hangers and of load bearing capacity appropriate for the weight involved Form 2020 11 Revision Date 5 1 2015 LOCATION When the vent connector used for an appliance having a draft hood must be located in or pass th
41. ow water cutoffs must be tested for proper operation Form 2020 25 Revision Date 5 1 2015 2 4 2 WATER TEMPERATURE OPERATING CONTROL The water temperature in the boiler is regulated by the Boiler Operator This is a temperature control which senses the water temperature and turns the boiler on and off accordingly This control must be operationally tested Turn the temperature setting on the control to a temperature less than the boiler temperature as shown on the boiler temperature gauge The control should turn the boiler off Restore the control setting to normal The boiler should cycle on Note To avoid condensation generated corrosion the average water temperature within the boiler must be a minimum of 140 F Natural LP gas or 160 F 2 oil Example A gas fired boiler operating with a 20 F Delta T would require a minimum operating control setting of 150 F to allow for average of 140 F water temperature within the boiler with 130 F return water temperature Please see Form 2294 for more information on condensation generated tube damage 2 4 3 OUTDOOR RESET CONTROLS Some boiler control systems also include an outdoor reset control This control increases the boiler operating temperature with a decrease in outdoor air temperature and decreases the boiler operating temperature with a rise in the outdoor temperature For gas fired boilers it is essential that the minimum operating temperature of the boiler never drop below 150
42. rough a crawl space or other area difficult to access or which may be cold that portion of the vent connector must be of listed double wall Type B gas vent material or of material having equivalent insulation qualities Single wall metal pipe used as a vent connector must not pass through any floor or ceiling CHIMNEY CONNECTION In entering a passageway in a masonry or metal chimney the vent connector must be installed above the extreme bottom to avoid stoppage Means must be employed which will prevent the vent connector from protruding so far as to restrict the space between its end and the opposite wall of the chimney A thimble or slip joint may be used to facilitate removal of the vent connector The vent connector must be firmly attached to or inserted into the thimble or slip joint to prevent the vent connector from falling out DAMPERS Manually operated dampers must not be placed in the vent connector This does not exclude the use of fixed baffles locking quadrant dampers that are welded in a fixed position or automatic vent damper when properly installed and interlocked with the boiler gas controls USE OF THIMBLES Vent connectors made of single wall metal pipe must not pass through any combustible wall unless they are guarded at the point of passage by ventilated metal thimbles 6 larger in diameter than the vent connector This may be done only on water boilers and steam boilers rated for operation at no higher than 50 psig S
43. t If the buildup of soot is appreciable the flue gas venting system must be thoroughly inspected internally as well and cleaned as necessary IMPORTANT If either soot or condensation is apparent a boiler service technician should be consulted The presence of soot indicates poor combustion and possibly hazardous boiler operation Failure to do so may result in fire explosion potential or asphyxiation A combustion test and burner adjustments should be undertaken at once Rust on the tubes indicates that boiler operating temperatures are too low The set point of the boiler operating control must be no less than 150 F for natural gas or propane firing and 170 F for oil fired boilers Boilers equipped with outdoor reset must also follow these limits 3 5 SUGGESTED MAINTENANCE SCHEDULE DAILY gt Make visual inspection of gauges monitors and indicators and record readings in boiler log gt Make visual check of instrument and equipment settings against factory recommended specifications gt Check operation of float type low water cutoffs to ensure control is functioning The lower piping connections of float type level controls should have a suitable blowdown valve piped into a proper drain This valve should be opened periodically to allow any sludge accumulated in the control to be flushed out On closed loop water heating systems this should not be often required Consult manufacturer s instructions WEEKLY gt On un
44. tance Stack Barometric Draft Control 0 50 Cap Round Elbow 90 Deg 0 75 Converging Exit Cone D1 D2 1 Round Elbow 45Deg 0 30 D1 is larger than D2 Tee or 90 Deg Breeching 1 25 Tapered Reducer 1 D2 D1 Y Breeching 0 75 D1 is larger than D2 STEP 5 CORRECT EQUIVALENT INPUT FOR SYSTEM K FACTOR The capacities listed in Table 1 8 12C are based on a system k factor equal to 7 5 For any other k factor the vent capacity must be adjusted This is accomplished by adjusting the equivalent input for the system using a k factor correction factor designated F3 Refer to Table 1 8 12E for the equivalent input correction factor that applies to the k factor calculated in Step 4 This factor is designated as F3 Multiply the equivalent input calculated in Step 2 times factor F3 from Table 1 8 12E This step will yield a new equivalent input MBH x F1 x F2 x F3 eq 12E Using this adjusted equivalent input check the stack diameter by following Steps 2 thru 3 again If the stack diameter remains the same the sizing is complete If not redo Steps 4 thru 5 etc until an acceptable result is achieved Form 2020 19 Revision Date 5 1 2015 Table 1 8 12C Approximate Stack Capacities MBH Based on Atmospheric Boiler with Draft Hood 380 510 670 850 1060 2070 710 3430 4240 5130 6110 5440 5880 6280 6660 7030 7700 8310 10860 12260 13750 24400 30930
45. the boiler should be softened and should include an oxygen scavenger like sodium sulfite This is required to remove dissolved oxygen from the water Dissolved oxygen will cause severe boiler tube corrosion DRAINING AND REFILLING THE BOILER amp SYSTEM If the system is drained and then refilled chemical treatment is essential to treat the raw water Use only clean softened water Form 2020 32 Revision Date 5 1 2015 3 4 EXTERNAL FIRE SIDE CLEANING PURPOSE Carbon soot is an insulator and is corrosive The heating surface of a boiler must be kept free from soot accumulation to keep the boiler operating at its highest efficiency and to avoid damage from corrosion SOOT REMOVAL If the yearly inspection of the boiler tube surfaces reveals a build up of soot or rust usually due to condensation the tubes should be thoroughly brushed Tube cleaning brushes are available from Bryan Steam To inspect and if necessary clean the tube surfaces and flue collector first remove the tube access panels Examine the exterior of the tubes for evidence of soot or rust Using a flashlight carefully look between the tubes There should be an unobstructed opening between all tubes and the top surfaces of the tube must be free from soot accumulation Also inspect the interior of the flue collector Brush or vacuum the soot from all surfaces Be sure to cover the burner nozzle with a protective cover during cleaning to prevent soot from falling into i
46. tion or discoloration of building materials VENT SUPPORT The gas vent or chimney must be securely positioned and supported Guy wires or other reliable means must be used to prevent movement of the vent PROTECTION AGAINST BLOCKAGE OR OBSTRUCTION The chimney or vent exit design must prevent any possibility of blockage by snow or by any other obstruction POWER VENTED EXHAUST SYSTEMS When these are used such mechanical exhaust devices must be electrically interlocked with all appliances on the vent system The circuit must prevent the operation of any appliance on the system if the hood or exhaust system is not in operation Form 2020 14 Revision Date 5 1 2015 STACK CAPS Every gas vent must be supplied with an approved vent cap that will prevent the entrance of rain or other precipitation into the vent Failure to provide such a cap may cause severe boiler corrosion or combustion problems or both Listed gas vents must be terminated with a listed cap approved for use with the particular gas vent Listed vent caps or roof assemblies must have a rated venting capacity no less than the vent Single wall vents must terminate in an approved cap which does not obstruct the exit The preferred type of cap for natural draft vented atmospheric boilers is the Briedert Cap This is because of the protection this cap provides against wind generated downdrafts Where there is no concern of high winds or turbulence at the vent exit a
47. to be free of restriction Diaphragm gas valves The vent line off of these gas valves must be vented to outdoors the same as the regulator Normally open vent valves These valves must be piped to outdoors using pipe no smaller than that of the valve Gas pressure switches Vent these switches to outdoors using a minimum of 1 4 tubing or piping Form 2020 4 Revision Date 5 1 2015 INSTALL GROUND JOINT UNION HERE GAS MAIN CSIZE AS REQ D DRIP LEG Lj U if MAIN SHUTOFF WALWE AUTOMATIC GAS PRESSURE GAS VALVES REGULATOR FIGURE 1 5A GAS BURNER CONNECTION NOTE USE PIPE COMPOUND THAT IS RESISTANT TO THE ACTION OF LIQUID PETROLEUM GAS DO NOT USE TEFLON TAPE 1 6 ELECTRICAL CONNECTION IMPORTANT All electrical connections must conform to the National Electrical Code and to all other applicable State and Local Codes Forced draft boilers may require a high voltage connection See boiler wiring diagram and equipment list for details Equipment Grounding The boiler must be grounded in accordance with the American National Standard Electrical Code ANSI NFPA 70 1 7 COMBUSTION AIR SUPPLY IMPORTANT Positive means for supplying an ample amount of outside air allowing complete combustion of the gas must be provided Movable combustion air dampers automatic or manually adjustable must be electrically interlocked with the boiler to prevent boiler op
48. uch harmful elements that may be in the water supply A qualified water treatment chemist should be consulted and the water systematically treated OBJECTIVES The basic objectives of water treatment are gt Prevent the accumulation of scale and deposits in the boiler gt Remove dissolved gases from the water gt Protect the boiler against corrosion gt Maintain the highest possible boiler fuel efficiency gt Decrease the amount of boiler down time from cleaning WATER SOFTENER It is highly recommended that a zeolite water softener be used for all make up to the boiler It is intended that this be used in addition to the chemical treatment of the boiler Water softening removes calcium and magnesium the primary causes of hard boiler scale CONTINUOUS MONITORING REQUIRED Water treatment should be checked and maintained whenever the boiler is operating The boiler operator should be sure that the boiler is not operating for long periods without proper water treatment It should be noted that water boilers may well need chemical treatment for the first filling plus additional periodic chemical treatment depending on system water losses and the makeup requirements Water treatment may vary from season to season or over a period of time Therefore the water treatment procedure should be checked not less than four times a year and possibly more frequently as the local water conditions may indicate All water introduced into
49. y in feet per second ESTIMATING STACK EMISSIONS Table 1 8 1C lists approximate emissions of NOx oxides of nitrogen and CO carbon monoxide The table lists both the concentration in parts per million ppm and the flow rate in pounds per hour PPH of each compound Divide the total input of appliances connected to the chimney or vent by 1 000 000 Then multiply this result times the value listed in the table for PPH emissions MANUAL REFERENCES See Figure 1 8 1 for a graphics listing of applicable sections of this manual for each section of the vent system Form 2020 7 Revision Date 5 1 2015 1 8 4 1 8 6 1 8 4 1 8 5 1 8 7 1 8 10 SIZING 1 8 11 CLEARANCES 1 8 2 FIGURE 1 8 1 VENT DESIGN INSTRUCTIONS REFERENCE TABLE 1 8 1A ESTIMATING FLUE GAS VOLUMETRIC FLOW RATE Approximate Flue Gas VOLUMETRIC FLOW RATE Per 1000 Btu hr Input Multiply factor listed times boiler input in MBH SCFM Per ACFM Per APPROXIMATE FLUE BOILER TYPE 1000 Btu hr 1000 Btu hr INPUT GAS TEMPERATURE INPUT AT FULL INPUT Water amp 15 Steam Gas Fired 0 230 450 Deg F Ol Fired 0 230 450 Deg F 150 Steam Gas Fired 0 230 500 Deg F Olened 0 230 500 Deg F TABLE 1 8 1B STACK EXIT VELOCITY Estimated STACK EXIT VELOCITY Calculation Multiply total ACFM times the velocity factor below velocity in feet per second STACK INSIDE VELOCITY STACK INSIDE VELOCITY STACK INSIDE VELOCITY DIAMETER FACTOR DIAMETER FACTOR DIAMETER FACTOR
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