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Home My WebLink AboutCOMPLIANCE CERTIFICATE - 06-00184 - Madison Memorial Hospital - AdditionEnvelope Compliance Certificate COMcheck-EZ So$ware Version 3.0 Release 2a Data filename: G.1400014011 MMH\4011 CC}Mcheck. cc�C Section 1; Pro ect Information Projmt Nwne: Designer/Contractor. Docullient . t r. 4Q1I Madison Memorial Hospital Van Bocrum & Frank Associates J'ed H. Lyman, PE Jacob D. Browning Section 2: General Information Building Location (for weather data)- Climate Zone-WP Heating Degree Days (base, 65 degrees F): Cooling Degree Days {base 65 degrees F}: Project Type: Window I VLTalI Ratio: n e Medical and Clinical Care Section 3: Requirements Checklist B I dg, Dept. � Use I Air Leakage, C L� 7. ()6()()184 Madison Memorial Hospital Addition Idaho Falls, Idaho 15 7918 306 New Collstraction 0.11 146244 Ompon nt Certification, and VaDor All joints and penetrat'4 ".It ju.111ir" tz� ions are eked, t � weather-stripped, otherwise .l u••ul0, w.1u �.�yeignts certxhed as meeting leakage requirements. Component R -values & U. --factors labeled as certified. ✓ Stair, elevator shaft vends, and other dampers integral t�-, ri,� h,,;i,-i;ri,� ,,......�--- - - vith moton-zed ri�m�,P�-� � - -a_-�- �.,��u�sx6 �.lWulupe are equipped Cargo doors and loading dock doors are weather sealed. 14 A% Recessed lighting fixtures are: (i) Type IC rated and sealed or gasketed; or (ii) installed inside appropnclearance ate air -tight assembly with a �.5 inch fromcombusfible materials alld an with 3 inclies clearance from insulation material_ Buildliag entice doors PV + " eAd 't11 closing ��✓ LL V lia7 , B-uzlding entrances with revolving doors. Doors that open directly from a space Tess than 3000 sq. �. in area, 147%" Climate -Specific, Requirements t N Rbb�l: fetal 100t iDti without Thermal Blocks EMetal Wall 1: eta1 Frame, 1611 o. C. Window I ': Metal FrarneDouble Pane, Clear, SHGC 0.32 Floor 1: S I ab -On -Grade: Unheated (a) Budget -.actors are used for SoRware baseline Ell Velvpe PASSES: Design 12°/fl better than rode / Section 4: Compliance Statement Gross Area or CavItY C 011t, Pro posed Budget P nm titer R -Value E- alU -F actor L-lactor 94196 53837 5711 1078 . and axe not code requirements. 0.050 Q.472 0.52+ The proposed envelope design represented in this document is consistent with the building plans, �p� ficatzans and. other calculations submitted. with this hermit appJ.icatian. The proposed, envelope system has been designed to meet the 20033 Require'lletits Checklist. IECC requirements in COMcheck--EZ V�ersinn 3.d Release 2a and to comply with themandatory requirements in the 1/P"- f S/ Principal Envclo D esi01 er-Name / ,, '.n 4C A .r 3 2Z 0 6 Date Mechanical Compliance Certificate 2003 IECC COMcheckEZ Software Version 3.0 Release 2a Data filename: G;1444Q140] 1 1VIMH1401 x COMcheck,cck Section 1:1 Project Information i r ect Name: D es i arn er/C r Document Author. 4011 Madison 1Vlemonal Hospital Van Boerum & Frank Associates Sed. H. Lyman, PE Jacob D. Browning Section 2: General Information Building Location (fir weather data).- Climate ata):Climate Zone: Heating Degree Days {base 65 degrees F)- Cooling Degree, Days abase GS degrees F): Project Type: Section 3Mechanical Systems Lisp Idaho Falls, Idaho XS 7918' 306 New Construction Permit Number Checked By/Date Quant1tvS stem Type & D esenl2tion 44 HP 1-6: 'Wafer Loop Heat Pump, Cooling Capacity e65 kBtu/h, Water -Cooled Condenser 1 Single Zone 9 UH 2,3 SLTH 1-3, CUH 1,2: Heating: Unit Heatez-, Hat 'Water 1 Unit Heater I: Heating: Unit Heater, Ceras 2 Roof Top 1, 3, Hewing: Gentry! Furnace, Gas / Caofing: Roa$op Fackage Unit, Capacity SGS kBtu/h, Evaporatively Coaled Condenser/ Single Zone � Roof Top 2,4-- Healing; Central Furnace, Gay l Cooling.- Roof -op Package Unit, CapacltY>-9Q _ ckBtulh, Evaporatively Cooed Condenser 1 Single Zane 135 4 Air Handler: Heating-, Hydropic or Steam Coil, Hod Water/ Cooling: Hydronic Coil, Capacity <65 kBtu/h, Air -Cooled Condenser/ S1119le Zone 2 Boiler I ,2 Chiller I ,2: Heating. Stew -n Boiler, Capacity >-=600 IcBtu/h' Gas ,1 Cooling: Water Chiller, Capacity >-150 - <;00 tons, Condenser Water -fooled, Rotary Screw or Scroll Chiller I Boiler 3: Heating: Sten Bailer, Capacity a=600 kR41/h, Gas Section 4: Requirements Checklist Det. � use � � Requirements Specific To; HP 1-6 � ] f 1. Equipment minimum efficiency: I Heat Pump: 4.2 C OP, r2.0 ESR � ] I 2. Heat pump thermostat required when supplemental electric resistance heat is installed W I � Requirements Specific Two UH 2,3 SUH 1-3, CUH 1,2 � J � I • Balancing and pressure test connections on all hydropic terminal devices Requirements Specific To: Unit Heater I j ] � I. Equipment minimum efficiency: Uni-t Heater (Gas).- 80% Ec � Requirements Specific To: Roof Top I, 3 1 . Newly purchased heating equipment meets the heating efficiency rNuirements [ ] � 2. Equipment minimum efficiency- I Rooftop Package Unit: 12.1 EER f � Requirements Specific To: Roof Tip 2,4 � ] ( 1, Newly purchased heating equipment meets the heating efficiency requirements [ ] � 2. Equipment minimum efficiency: � Roo -flop Package Unit: 1 I. 3 EER � ] � 3. Integrated air economizer required � Requirements Specific To: Air Handler � ] � 1. Balancing and pressure test connections on all hydronic germinal devices ] � 2• Separate hat and fold water supply and returns j Requ*rements Specific To: Boiler 1,2 Chiller 1,2 [ ] � X. Equipment minimum efficiency: I Boiler Thermal Efciency >= 75% Et [ � � 2. Equipment mini3num efEciency: � Chiller: COP 3— 4.9d, IPLV >= 4.95 l ] � 3. Newby purchased heating equipment mets the efficiency requirements I -used equipment muni meet 80% Et �a maximum capacity [ j � 4. Systems with multiple boilers have automatic controls capable of sequencing boiler operation [ � � 5. Hydroni c heating systems comprised o f a single bailer and >S(3fl IcBtullY input design capacity j include either a multistaged or modulating �aumer 1 � Requirements Specific Ta: Boiler 3 1. Equipment minimum efficiency; Bailer Thermal Efficiency >= 75°jo Et C ] � 2. Newly purchased heating equipment meets the efficiency requirements f -used equipment must meet 84% Et @ maximum capacity L ] � 3. Systems with, multiple boilers bave automatic controls capable of sequencing boiler opczwation [ ] r 4. Hydronic heating systems cc�r�prised of single boiler and >504 kBtu/h input design capacity 1 include either a multYstaged or modulating buzner � Generic Requirements: Mush be met by all systems to which the requirement is applicable � ] j i. Load calculations per 1997 ASHRAE Fundamentals [ ] � 2. Plant equipment and system capacity no greater than needed to meet loads f -Exception: Standby eq�.ipment automatically ofFwhen primary system is operating - ExcePti0n- Muldple antis controlled to sequence operation as a funct'ar� ofla� � ] f 3. Minimum one temperature cantrQl device per system 4. Minimum one humidity control devise per instal -led humidzficati0n/dehumidification system [ � j 5. Thermostatic controls has 5 degree IF deadband � -Exception: Thermostats requiring manual changeover between heating arzd cooling +v e [ � j G. AutOrnatic Controls; Setback to 55 degree F (heat) and $S degree F (coot); 7 -day cock, � 2 -hour occupant avemde, 1 0 -hour backup � - Exception: Continuously operating zones � - Exception: 2 kW demand or less, submit calculations 7. Automatic shut-off dampers on exhaust systems and supply systems with air-ffow >3, 000 Cfrn � S. Outside -air source ibr ventilation; system capable of reducing OSA to required minimum � I 9. R-5 supply and return air duct insulation in unconditioned spaces R-$ Supply and ret -um air duct insulation outside the building � R-8 insulation between ducts and the building exterior when ducts ars part of a building; assembly � -Exception: Ducts located within equipment I -Exception: Ducts with interior and exterior temperature diference not exceeding 15 degree F. ] � 10. Ducts sealed - longitudinal seams on rigid ducts; transverse seams on all ducts; � UL 18 IA or 18 1B tapes and mastics i -Exception: Continuously welded aid lacking -type longitudinal joints and seams on ducts j operating at static pressures Tess than 2 inches w.g. pressure classification � ] � 11. Mechanical f�stenners and sealants used to connect dints and sir distribution equipment ] f 12. Hof water pipe insuI anon: X in. for pipes c— 1. 5 in. and 2 in. for pipes > 1. 5 in. � Chifflod wateriz-efrigerantlbrine pipe insulation: 1 in. 5r pipes <-1.5 in, and 1. S in. fir pipes > i . S in.. i Steam pipe insulation; 1. 5 in. far pipes <= 1. 5 in, and 3 in. for pipes X 1. 5 in. � - Exception: Piping within HVAC equipment ( - Exception,: Fluid temperatures between 55 and 105 degree F � - Exception: Fluid not heated or cooled -Exception: Runouts <4 ft in length C ] 1 13. operation and maintenance manual provided to building owner � ] ! 14. Balancing devices provided in accordance with llVIC 603.15 [ ] � l5. Chilled water distribution systems >=600 kBtu/b must Have one of the fallowing: j aj controls that reset supply water temperature by 25% of supply/return delta. T � b} mechanical or electncal adjustable -speed pump drive(s) j c} two-way valves at all heating coils � d) multiple -stage pumps j e) other system controls that reduce pump flow by at least 50% based on load - calculations required 16. Hot water distribution systems >=300 kBtu/h must bave one of the following: � a} controls that reset supply water temperature b y 2S% afsupply/return delta T � b} mechanical or electrical adjustable -s'p'eed pump drive(s) � c} two -w -ay valves at all heating coils � d) multiple-stage pumps j e) other system controls that reduce pump flow by at least 50°/4 based an load f - calculations required 17. Chilled water distribution systems >=300 k-Btu/h must have one of the follow ing: � a} controls that reset supply water temperature by ZS% of supplylretum delta T � b} mechanical or electrical adjustable -peed pump drive(s) � c) two-way valves at all heating coils � d} multiple -stage pumps � c} other, system controls that reduce pump flow by at least SQ% based on Load - calculations required � ] j 18. Stair and elevator shaft Vents are eq�ipped with moio�ized dampens � ] � 19. Three -pipe systems not used S ectian 5: Compliance Statement The, proposed mechanical design represented in this ci.cacurnent is consistent with the building plans, specifications and other calculations submitted with chis permit application. The proposed mechanical systems have been designed to meet the 2003 I GC requirements in GC3Mchedc-EZ Version 3.0 Release 2a and to caYnply with the inantiatory requirements in the Requirements Checklist. A Principal Mechanical Desi ner- Oaf Sig atu�re Date. IV Mechanical Requirements Description 2003 IECC COM,OheCk--EZ Soitware Version 3.0 Release 2a Data filename: G:1400014011 MMH\4011 CoMcheck.cck The fol lawing list pro vi des mare detailed description ofthe requirements ill S ectl'on 4 afthe M echani�� Com. dance CertYf cafe. p 1. Requirements Specific To,-, HP 1-b The specified heading and/or cooling equipment is covered by the ASHRAE 94. 1 minimum efficiency; Heat Pump: 4.2 COp, 12.0 EER Code and must meet the following Heat pumps having supplementary electric resistance heat must have controls that, except during defrost, prevent SU_ plementary heat operation when the heat puranp can meet the heating load. Requirements Specific To: UH 2�3 SUH 1-3, CUH 1�2 is must be equipped with to pressure balance water I w and pressure, Requirements Specific To: Unit Heateir 1 I. The specified heating and/or coaling equipment is covered by the AS 9Q. I Cade and must meet th minimum. efficiency: Unit Heater {Gas): 80% Ec e Ulowing Requirements Specific To: Roof Top 1, 3 I. The specified heating equipment is covered by Federal mirumuxn efficiency requirements. NeNv equipment of this type can be assumed to meet or exceed ASHRAE 9p.1 Cade requiarernents Vit- equipment efficiency, Minimum Z. The specified heating and/or cooling equipment is covered by ASHRAE 90.1 Code and must meet the followingmtnlmum efficiency; Roo$op Package Unit. �2.i ESR Requirenjents Specific To: Roof Top 2,4 1. The speeAed heating equipment is covered by Federal minimum efficiency requirements. New equipment of this type can be assumed to meet or exceed ASHRAE go. 1 Code requirements for equipment efficiency. � 2. The specified heating and/or caolin9 equipment is covered by ASHRAE g4. 1 Code aald must meet the following minimum e�cratediency: Roo�op Package Unit: 11.3 EER g 3• An integair economizer is required for individual cooling systems over 65 kBtu/h in the seIected climate, An integrated economizer allows sianultaneaus aperation of outdoor-a�.r a�ld mechanical �oo�ing. Requirements Specific To: Air Handler I. Hydronic heating and cooing coils must be equipped with a wary to pressure test connections and measure and balance water how and pressure. 2• Fan system terminal units must have separate hat and cold water supply and return piping. Requirements Specific Ta: Boder 112 Chiller 1,2 I. The specified heating and/or Coaling equipment is covered by the ASHRAE go.1 Code and must meet the following minimum ei�rciency: Boiler Thermal Efficiency >= 75% Et 2. The specified heating and/or cooing equipment is covered by ASHRAE 9Q. I Code and must. meet the Ulowin minimum e�cie��cy: Chiller: CQP �= 4.9(}, IPLV �= 4.95 g 3. The SpeC"i%ed }eating equipment is cavered by Federal xninirnuni efficiency requirements. New equipment ofthi� t can be assumed to meet ar ex�eCd AS�� 90,4 1 COde �,�glllxerilents fir equipment efficiency. Used equipment yPe Inert 80% Et @ maximum capacity. must 4• Systems with multiple boilers have automatic controls cable afsequencYng the operation of the bolters. S. R.Ydronic heating systems comprised aha single bailer and >500 kBtij/h input Multistaged or modulating burner. Requirements Specific To: Boiler 3 I. The specified heating and/or coaling equipment is cowered hv design capacity include either a d. minimum efliciency: Boiler Thermal Elliclency >- 75% Et � the ASHRAE 9n .1 Gode and must meet the fallowing 2. The specified heating equipment is covered by Federal minimum efficiency requirements. New ui anent of this �n be assumed to meet or exceed ASHRAF 9o. I Cede re uirenients for '� P type �1 equipment efficiency. Used equipment must tne�t 80% Et @ maximum capacity. 3• Systems with multiple boilers have automatic controls capable of sequencing the operation of the bailers. 4. Hydrvnic heating systems comprised of a singly boiler and >SUO kBtu/h input design capacity include either a multistaged or modulating burner. Generic Requirements: Must be met by all systems to which the requiremenf i� applicably Z. Resign heating and cooling loads for the building must be determined using procedures equivalent to chose in Chapters 27 and 28 of the ASHRAE Handbook affundarnentaIs or an approved equivalent calculation procedure. 2• All equipment and systems must be sized to be no greater than needed to meet calculated loads. A single piece of equipment providing both heating and cooling must satisfy chis provision for one kinct1on wit�a the capacity For the other function as small as possible, within available equiprr�enfi aptaons. - Exception: The equipment and/or system capacity may be greater than calculated loads for standby purposes. Standby equipment mustbe automatically controlled to be of when thenm p ary equipment and/or system is operating. - Exception: Multiple units of the same equipment type whose coinbined capacities exceed the calculated Ivan are allowed Ff they are provided with controls to sequence operation ofthe units as the load increases or decreases. 3, Each heating or cooling system serving a singly zone must have its own temperature control device. 4. Each humidification sYstern must have its awn humidity control device,. 5. Thermostats controlling both heating and cooling must be capable of maintaining a 5 degree F deadband (a range of temperature where no heating or co,oling is provided)- Exception: I�eadband capability is not required if the thermostat does not NOW -7e automatic chang�av�r capalai�ity betweenheatingand cooling. 6. The system or zone -control must be a programmable thermostat or other automatic control meeting the fallowingmtena:a) capable of setting back temperature to SS degree F during heating and setting up to 85 degree F during coolingb} capable of automatically setting bask or shafting down systems during unoccupied hours using 7 diffirent day schedulese} have an accessible 2 -hour occupant a�erri�ed} have a battery back-up capable Of maintaining 0 pragramzned settings for �� least 10 houz-s ��vithaut power. Exception., A setback or shutaffcontral is not required an thermostats that control sys��ms s continuously. erving areas that operate - Exception: A setback or shutalcontrof is not required an systems with total energy demand aft kW (b,826 Muth) or less. Z. Outdoor -air supply systems with design airflow rates >3,000 cfm of outdoor air and all exhaust systems must have dampers that are automatically closed while the equipment is not operating. $• The system must supply outside ventilation air as required by Chapter 4 of the Tnterz�ational Mechanical Code. If the ventilation system is designed to supply outdoor -air quantities exceeding minimum required levels,, the system must be capable ofreducing outdoor -air flow to the minimum required levels. 9. Air dints must be insulated to the following levels.a) Supply and retum air ducts for conditioned air located in unconditioned spaces (spaces nether heated nor cooled) must be insulated with a minimum ofd -5. Unconditia ned spaces include attics, crawl spaces, unheated basements, and unheated garages -b) Supply and � return air ducts plenums must be insulated to a minimum 4f1�.-$ when located outside the building. c When ducts extenor componenis (e.g., $Dors car rc�afs), minimuYn R-$ insutatznn is required ony between the duct �x,�Ca�� n building exterior. d the Exception: Duct insulation is not required on ducts 10catedwithin equipment.Exception: Duct insulation is not required when the design temperature diffirence between the interior and exterior of the duct or plenum does not exceed 15 degree F. 10. AIS Joints, longitudinal and transverse seams, and connections in ductwork mush be securely sealed usingweldmez�ts mechanical, fasteners with sealsgaskets., or mastics.; mesh and mastic sealing systems; or tapes. Tapes and mastics must be listod and labeled in accordance with UL 18 1A or [TL 18IB. - Exception-. Continuously welded and lOcking-tYpe lonuitudinal joints and seams on ducts operating at static Pressures less than 2 inches w. g, pressure classification. � 1 • Mechanical fasteners and seals, mastics, or gaskets must be used when connecting ducts to dans and other air dishibution equipment, including multiple -zone tem�xn� units.. 12. All pipes sewing space -conditioning systems mast be insulated as fa11aws: Hot water piping dor heating systems: 1 in. for pipes <=1 112 -in. nominal diameter 2 in. for pipes >I 112 -in, nominal diameier. Chilled wafer, refrigerant, and brine piping systems: 1 in. insulation for pipes <=1 X12 -in. nominal diameter 1 112 in, insulation for pipes >1 112 -in. 110minal diameter, Steam piping: 1 I12 an. insulation for pipes <-1 1/2 -in.. nominal diameter 3 in. insulation for pipes >l X12 -in. nom»nal diameter. - Exception: Pipe insulation is not requzred fear factory -Installed piping within HVAC equipment. Exception: Pipe insulation is not required fc)-r piping that conveys -fluids having a design operating temperature range between 55 degrees F and 105 degrees F Exception: Pipe insulation is not required i)r piping that conveys quids that have not been heated or cooled through the use of fossil fuels or electric power. - Exception: Pipe insulation is not required for runout piping not exceeding 4 $ in length and 1 in, in diameter between the control valve and HVAC coll. 13. Operation and maintenance documentation must be provided to the owner that includes at least the follow' 1Dg � inrmation: a} equipment capacity (input and output) and required maintenance actionsb) equipment operation and maintenance manualsc} HVAC system control maintenance and cali.bratian inf�rtnation, including wiring diagrams, schematics., and control sequence descriptions; desired or field -determined set paints muss be permanently recorded on colltral drawings, at control devices, or, for digital control systems, in programming commentsd) compete narrative of how each system is intended to operaie. 14. Each supply air outlet or diffi-ser and each zone terminad device (such as VAV or mixing box) must have its own balancing device. Acceptable bal-ancing devices include adjustable dampers located within the ductwork, terrriinal devices, and supply air difusers. 15. Chilled water distribution systems with total system capacities of 600 kB,tu/h and greater must have controls that:a) automatically reset the chilled water supply temperature, based on coaling load, by at te�s� 25°/a of the design Supply -DIV -return water temperature dx�rence orb) redi�ce pump how by at Fast 50°fo of design flow rate by using - adjustable -speed drives) on pumps)- multiple -stage pumps allowing at least 112 of the total pump horsepower to be automatically turned of- control valves designed to modulate or step dawn and close as a function of load- other approved means (supporting documentation or calculations must be submitted). 16. Hoy water space -heating systems with a capacity exceeding 30Q kBtu/h supplying heated water to comfort conditioning systems must include CpritrDXS that autQmatieal.Iy reset supply water teznperatures by representative building loads (including return water temperature) or by outside air temperature. Exceptions: -Where the supply temperature reset controls cannot be implemented without pausing improper operation of heating, cooling, hurnidiftation, or dehumidification systems. Hydronic systems that use amiable flow to reduce pumping energy. 17. Chilled water space -cooling systems with a capacity exceeding 300 IcBtu/h supplying chilled wat�r for comfort conditioning systerir�s mush include controls that automatically reset supply water temperatures by representative building wads (including return water te�raperature) or by outside air temperature.p Excepti, ons: - Where the supply temperature reset controls cannot be implemented without Causing improper operation of heating, cooling, hurnidificatian, or dehumidification systems. % RP - Hydropic systems that use variable ff ow to reduce pumping energy. 18. Stair and elevator shaft vents must be equipped with notarized dampers capable of being automatically dosed during normal building operation and interlocked to open as r�qurred by fire and smoke detection systems. All gravity outdoor air supply and exhaust hoods, gents, and ventilators must be equipped with motarizecl dampers that will automatically shut when the spaces served are not in use. Exceptions: - Gravity (non -motorised) dampers are acceptable in buildings less than tree stories in height above grade. Ventilation systems serving unconditioned spaces, 19. Hydropic systems that use a common return system fvr both hot water and chilled water muni not be used.