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5941 Cross Creek Dr - Disclosures/Mechanical - 10/15/2018
C)agA. INAAirl rrs�ol2,t3�5Gv��%y►r City of Fort Collins Residential Mechanical Systems Performance Report Updated 317/2014 This form Is a record of testing targets and results, with Pass/Fail outcomes. For information on measurement tools City of and testing techniques, sea the "Residential Now Construction Mechanical Systems Testing Guide." The guide and Fort Cotllns this form may be periodically updated; chock the Building Services web site for the current version. umnes This form must be completed and signed by an "Approved Agency, and submitted to Building Services as a requirement for receiving a C.O. Color key Measured value n: j.rp +'Fail 'r+. if. Other To compare with Pass 'CauUoii data or limit target or limit Testing date(s) ADCF = Air Density Correction Factor, based on tool. ADCF altitude (5000% air temperature through tool Volumetric flow (CFM 5000') = ADCF x Indicated flow (CFM) Date of "Residential Mechanical Systems Design Submittal" Information referenced by testing technicians '1"2, Lohaut (-SpVoj4Ki 1 r . t.njr r;y_°f,,^%7k. r Bath exhaust' Flow Flow box Pilot tube duct traverse tool Passive flow hood Ej Other (note below) Air temp o through tool (F) 70 Testing tech (Initlals) 'A—T ADCF Measured Airflow Airflow Airflow Minimum Airflow Requirement Indicated Volumetric Exhaust Pickup Location (CFM (CFM 5000') Flow Flow Pass Fall 5000') + Typo of Operation (CFM) (CFM 5000') P biz 50'Inl©rmittonf 20 Congnuous' ' ¢0 Inleimiitent 20 Continuous ❑ ❑ ❑❑ 50' Inlermiltont 20 Continuous' SO.' nn'elrr ittent 20 Conhni'0, ❑ ❑. ' _ ' SO�Intefmittent 2a COntI00ous... ❑ ❑ „ 50,Intermltton't` 20 Continuous; ❑ El .,'IElntermittenh 20 CbritinuousEl Ej Testing r . notes Kitchen exhaust NIA - hood does not vent to outside ❑ Testing tech (initials)® Oven fuel —]gas Electric Minimum airflow requirement (CFM 5000') + operation ®.100 Intemilttont Q 25 Continuous' Measured aidlow FlowVP'nowsered box Pilot tube traverse Tool Interior rille Air firm ivaflowhood �Flowgrid ®Et 1, 1gduc[ through ADCFa tool flow hood Other (note bolow) location (Exterior termination not OK) tool (F) % Indicated flow -2 / ' CFM Volumetric flow 7 D CFM 5000' ® Pass Fail Testing notes Residential Mechanical Design Submittal V20140307 Page 1 Testing tech (inilials)tzr n . i Testing approach and targets ❑NIA: No complete AC system ❑ N/A: House completed November - April (installing contractor responsible for testing in warm weagtor) ❑TXV: Subcowing + SH check ❑ Non-TXV: Suporhoal ❑ OEM -specific: Approach ❑ Other OEM-spocific (documontation requiroa) Target approach Target Temperatures Condenser Non-TXV: Return � Targeta subcooing� °PProach (F): enlerin0 air temp air wet -bulb temp superheat .El Subcooling Discharged Condenser saturation T F Liquid lino F Actual subcooling ❑F ❑TXV Pass: Actual SC within 3 F of target SC, 2 F min pressure lamp (Coed T -Gq lino T) El' Fail (PSI) (50gg'chad)❑ Superheat Suction Evaporator saturation T F Suction line❑F Actual superheat❑F Non-TXV Pass: Actual SH within +1- 5 F of target SH pressure Comp (SucllinaT-ovopT' []Non-TXV Fail (PSI)❑ (5000'chad}❑ ` TXV checks: ❑ Pass: Field -installed TXV installed in accordance with OEM instructions ❑Caution: Actual SH outside mfgr range Approach ) Liquid temp Actual approach p (amp (Dq Eno T - condenser FAT) Testing _ notes 40' A—L �i�Trl�lfy ❑ Approach Pass: Actual approach within +1-1 F of target approach Approach Fail ,•,� �, Yh jp.'r °`. rkkdN' ill cot d4 hA' '-el ^W TW'i.' s '�yryh ^.. (7::Room A�>FIovS► P�.. Register air flows Testing tech (initials)m All registers are cut through finish materials and moving air E ■Fail (Romaindor of register air flow section under development, not yet being enforced) Pressure balance Testing tech (initials) Room Room -to -Coro Measured (match names on plans, include Pressure Drop Pressure Pass Fall basement if there is a door) Target Range (Pa) Drop (Pa) r�_•- 3 to +3 M 32 r 3-to+3 ® ❑ 2 3, to'+3 R_ :1 Tt 3 to,+3 07 -3 tcl+3 =w ❑ ❑ 3 to +3 ❑ ❑; ' �-3 to't3 . r- ❑ ,'❑ Residential Mechanical Design Submittal V20140307 Page 4 ®Combustion safety testing WA — no natural -draft combustion appliances (Appliance Types table must be completed for every home) APpliance types Testing Loch (initials)® Appliance " Combustion Ty e WA NIA Draft -hood Induced -draft Natural -draft Power- vent Direct- vent cooled- ion Electric Furnace #1 ❑ ❑ ❑ ❑ Q ill ❑ Furnace #2 ❑ 10 . , 0 ❑ Cl, ❑ Boiler #, Boller#2 .0 ❑' - ❑,'Z- . a o , l r_1 1 ❑ , 1771 , a ❑ .:.,to ,: ❑ ❑ Water healer #1 ❑ . ❑, ,. , < ❑ ' 4❑ 0 _ 0 ❑ �'. Water heater #2 ❑'_:. ._ ❑�.r". ,.'.'.❑•':0 0.. 1. , - - 0 ❑ Fireplace 91 ❑; '_ D ,J:• x 0 a'0 ' ❑ 0. ❑ Fireplace #2. o, ❑0 .-v.:.S r v, D; ` ; Dr a .., 0 Other: ©' ' e ❑ r, fOa `� O, , ` ❑ ,r. r, jL Worst -case depressurization performance tt VIA V{11111U1Ja v,� Vented range hb6d on, Clothes; dryer on =" Airhandteron &r?; Olherfans 6ni Other selup'notas I , Outdoor temperatureF wy ".i ,t l CAR pressure '..,{ BPI depressurization limit (Pa wrt outsido) 4' Measured net CAZ depressurization (Pa wrt outside) OK (less negative) I Caution (more negative) w' Spillage BPI maximum limit (seconds) Measured spillage duration (seconds) Pass = duration not exceeding limit $Draft pressure BPI limit (Pa wrt CAZ) it .` Measured (Pa wrt CAZ) Pass = pressure more negative than limit CO concentration in undiluted flue gas BPI maximum limit Measured CO Pass = CO level not exceeding limit Caution = CO level 25 to 100 ppm JVrnu: �- Jtrn 'a. r. C"i" v1JJ ,1j OK ❑i:' Caution 0„ OK ;❑` Caution ❑ OK (]; Caution ,r 160 "Q`] Pass 1 0� Fail . ❑, Pass ail {, ❑' Pass ❑a Fail ❑, Pass ❑:^;I Fail ❑ Pass a' Fail Residential Mechanical Design Submittal V20140307 Page 5 Testing tech (inttials) A- System Controls operaung Per Design In Local Local exhaust (all fans) ❑ NIA ® Pass ❑ Fail Whole-houso ventilation ® NIA ❑ Pass Fail Sub -structural floor exhaust NIA ❑ _ Pass '❑., Fall Heating (all systems) ❑ NIA Pass ❑,: Fail Cooling (all systems) ❑ NIA ® Pass ❑ : Fail Technician #1 performing Inspection and testing documented on this report (Approved Agency) ons bearing my initials, were performed in accordance with protocols specified by the I certify that the tests referenced above, in secti City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my knowledge. �•' Name (print) r r• i. .r Title Compan I ; Signature and Date Technician #2 performing inspection and testing documented on this report (Approved Agency) ryj I certify that the tests referenced above, in sections bearing my Initials, were performed in accordance with protocols specified by the r City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my knowledge. i Nei 14 i f _A Signature to HVAC Contractor (City of Fort Collins license holder) T-1 (;' ) I certify that I have reviewed this report and that the test results are an accurate representation of the performance of the installed mechanical systems. f ? Nei I i 31 i r ; •r i Signature Residential Mechanical Design Submittal V20140307 Pagb 6 n... N' - • t,.� �' '!.�° 'SIr.Y dsf e�♦ t: -`� s 3: Whole R6uje VdtjU abort. floorSvsterns other than sub -structural Code -minimum ventilation airflow 5000' airflow Design vonairflon CFM 5000' CFM ❑ (� Exhaustronly �) � System (based on CFA and If of BR) ®Supply -only ` ` t0' 3a CFM 5000' typo ❑Balanced Target ventilation airflow range (code+n6tlmam) ' -. (fzox of deslgn flow) Measured Airflow Air Temp Indicated Volumetric Measurement Method Tool Location Through ADCF Flow Flow Pass Fail Tool IF) (CFM) (CFM 5000') Total ❑ NIA ❑ Passive flow hood ❑ exhaust Flow box Pilot tube traverse airflow ❑ Flow dollar � Otlier'(hote he:I ) _ Total ❑WA • -❑Passive'flowpood supply airflow ❑ Flow box ® Pilot tube traverse FlowcollalrOther(note below). Q 1 • 1�4P'1�(=, ,. ," �� -' y ('O�• I (S a�n When supply airflow Is circulated by air handler fan, fan speed for measurement El Heating Q Cooling D Continuous fan Balanced airflow in balanced systems Average of measured CFM Target flow range '" •; ado . CFM Pass notes Testing notes • • • • • w N/Ape No ductwork Testing notes No duct'workcuWile conditioned space Mu multiple sys) _Testing tech (initials): C+^ Duct leakage _Energyrater(name, data source company, testing date): House conditioned floor marea oat) at Air lemp of (F) ADCF (incWdo lull basement) through tool (F) Test Parameter and Conditions Maximum Allowed Duct Leakage Normalized Absolute (CFM25 5000' 1100 so (CFM25 5000') Measured Duct Leakage Indicated Volumetric (CFM25) (CFM25 5000') System #1 System #2 Leakage Typo Timing Air Handler Pass Fail Pass Fall Total leakage Rough -in Excluded 3 Total leakage Rough -in Included 4 Total leakage Complete Included 4❑.0 El Residential Mechanical Design Submittal - V20140307 Page 2 For multiple systems, attach one page per system System k❑ Which pans of house does it sorve7 MA I M r�o Iz I RArsr— Installed equipment (Be clear about which AC components are installed at time of testing) Testing tech (initials) Furnace or Boller AC or Heat Pump Condenser AC or Heal Pump Coll Manufacturer AMA"AI Awv At--iA Qtvta-Q.A Model It GMECq(,,0&03(3r•IA G5X13oaqjp CAPE= Filler _Basicfiberglass _Electrostatic Thickness ❑ MERV� brand �cpab Typo V_ Basic pleated _Other: (Inches) {rr (optional) 5 Ef�S _ High-effic pleated Static pressures ❑ Healing [ZCooling ❑ Cont. fan -stage for -multi-stage-equipment speedtap: -•' 1-16mldifiecdamp4 5 NlA []Open (Heating) j]Clo`sed (Cooling) ® All registers open dampers open SP1 ZO AP Filler S(p (SPt- SP2) Cooling: Measured air flow through Indoor coil Design cooling airflow CFM 5000' (high stage) ;Measured airflow Testing tech (initials)® (Same location for NSOP, TFSOP) ❑ NIA -- no AC Installed Testing tacit (Initials) Target alrtlow limits G P . (design +/-15%) ' ', U a.J CFM 5000' Air tomp l )F-7-&] �� Flowgrid U 14 throughADCF NSOP TFSOP Flow Resistance j plate size 20 tool F I . O % Correction Factor Measured airflow, no Indicated airflow CFM Volumotric airflow CFM ® Pass adjustmentleorreclion %(� CFM Measured AFxFRCF�Indicated AF x ADCF {0i7� 5000' []Fall Testing notes Heating: Gas manifold pressure (high stage) Testing tech (initials)® Manifold pressure Target manifold P Measured ® Pass OEM spec @5000' 3,5 IWC limits (spec+/-5%) �;3'2- 03=;��� IWC pressure 3"4 4 'WC Fail Heating: Temperature rise Testing tech (initials) OEM temperature rise limits ' 3 to (o Jc F (high stage) 5 Measured temps F : Supply _ Return _ Temp Caution: within IOF p () air f j-S air 70 rise I&5 ®Pass ❑Fail ❑ of top of range Residential Mechanical Design Submittal V20140307 Page 3 Testing tech (inilials)® Testing approach and targets W ❑NIA: No complete AC system ❑ N/A: House completed November - April (installing contractor responsible for lasting in warm weaemr) ❑TXV: Subcooling + SH check ❑ Non-TXV: Superheat ❑ OEM -specific: Approach ❑ Other OEM-spocific (documonlntion roquifod) Temperatures Condenser Non-TXV: Return Target Target Target lamp suporheotl subcoolingi approach (F): entering air lempF1 air wot-bulb Subcooling Discharge Condenser Li Liquid Acluel pressure" saturation T❑F [inSubcooling❑F TXV Pass: Actual SC wthin 3 F of target SC 2 F min PSI(5000•chan) lam (CondT- tiglineT) EITXVFall Superheat Suction Evaporator Suction Actual ' = pressure❑ saturation T❑F linesuperheat❑F ❑Non-TXV Pass: Actual SH +I- 5 F of target SH (s000 cnad) romp (sancnaT-ovapT) ❑Non-TXV Fail Non- (PSI) d TXV checks: ❑ Pass: Field -installed TXV installed in accordance with OEM instructions Caution: Actual SH outside mfgr range Approach Liquid line�F Actual approach�F " tamp (Dq F.na T-condenser FAT) ❑ Approach Pass: Actual approach within +/- 1 F of target approach []Approach Fail Testing notes id l>rwlP ( r l GS l IrJ(� r Register air flows Testing tech (initials)® All registers are cut through finish materials and moving air EgPass FiFail (Remainder of register air flow section under development, not yet being enforced) Pressure balance Testing tech (initials) Room (match names on plans, include basement if there is a door) Room -to -Coro Pressure Drop Target Range (Pa) Measured Pressure Drop (Pa) Pass Fall QRS 3td+3 ® ❑ n i to'+3 , �. ❑ ❑ 34o`+3 i ❑ ❑ c3to4 ❑ ❑` m3- to +3 ❑ �3 to +3. ❑ ❑ -3to+3 ❑ '❑ Residential Mechanical Design Submittal V20140307 Page 4 fVjj Combustion safety testing N/A — no natural -draft combustion appliances Testing tech (initials)® (Appliance Types table must be completed for every home) Appliance types r_. Appliance N/A N/A Draft -hood - Induced -draft Power- Natural -draft vent Direct- vent Powered sealed - combustion Electric Furnace 01 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Furnace #2 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Boiler 01 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Boller 02 ❑ ❑ ❑ CO] ❑ ❑ ❑ Water heater #1 ❑ ❑ El❑ ' ❑ ❑ Water heater 92 Fireplace #1 Fireplace #2 ❑ ❑ ❑ . 0;`.•: '.. ❑ _ , .. , ❑.: ❑.. F . ❑ ' . 0• ❑ - .-❑' ❑ . ❑ ❑ - ❑ ❑ - ❑ - ❑ ❑ ❑ Other: ❑ ❑ ❑ ❑ ❑ ❑ ❑ Worst -case depressurization performance Heuso E. to F � , Thesotioors ore 4 _of'bath Faris on _ Vented range ;hood on _ Clatfies Cryer on —Air handier on . Other fans on: Other 3etup'note a Outdoor temperature = F i CAZ pressure BPI dopressurizalion limit (Pa wrt outside) Measured not CAZ depressurization (Pa wrt outside) I OK (less negative) I Caution (more negative) 1Spillage BPI maximum limit (seconds; Measured spillage duration (seconds• Pass = duration not exceeding limit Draft pressure a BPI limit IN wrt CAZ Measured (Pa wrt C Pass = pressure more negative than limit CO concentration In undiluted flue gas BPI maximum limit Measured CO Pass = CO level not exceeding limit Caution = CO level 25 to 100 ppm ❑ JOK El,Caution ❑ OK ❑ ., Caution ❑ JOK ❑..- Caution 60 '• 60 ' '60 •❑ Pass [) = Fail ❑ • Pass I❑ Fail ❑ Pass❑ Fail I: 3 AZ) �r• 4''J, ' ❑ IPass �Q, Fail ❑ jPass I. ❑ lFail ❑ Pass ❑ IFall Residential Mechanical Design Submittal V20140307 Page 5 y f�. .10—(5-18 Technician #2 performing inspection and testing documented on this report (Approved Agency) ip I certify that the tests referenced above, in sections bearing my initials, were performed in accordance with protocols specified by the # and that the reported results are accurate to the best of my knowledge. City of Fort Collins Building Services Department, a. Nagy t :s �k i Signature t,.. Testing tech (Initials) Controls Operating System Par Design Intent .ocal exhaust (all fans) ❑ NIA ® Pass ❑; Fail Nhole-house ventilation NIA ❑ Poor ❑',' Fall Sub -structural floor exhaust ® NIA ❑ Pass ❑.. Fail Heating (all systems) ❑ NIA ®- Pass ❑ : Fail Cooling (all systems) ❑ NIA ®. Pass ❑ Fail Technician 01 performing Inspection and testing documented on this report (Approved Agency) I certify that the tests referenced above, in sections bearing my Initials, were performed in accordance with protocols specified by the ']City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my knowledge. Name (print) Title Compan Signature and Date 4HVAC Contractor (City of Fort Collins license holder) I','A I certify that I have reviewed this report and that the lest results are an accurate representation of the performance of the Installed mechanical systems. y Nai i Signature Residential Mechanical Design Submittal V20140307 Page 6 Da.`t A City of Fort Collins Residential Mechanical Systems Performance Report Updated 31712014 CI o This form is a record of testing targets and results,sulls, with Pass/Fall outcomes. For Information on measurement tools tyf and testing techniques, see the "Residential Now Construction Mechanical Systems Testing Guido' The guide and Fort CoWns this form may be periodically updated; check the Building Services web site for the current version. wmimn -- This form must be completed and signed by an "Approved Agency," and submitted to Building Services as a requirement for receiving a C.O. Color key Targei' Measured value to compare with Pass - Fa l Caution Other data or limit target or limit rwuress I 5cl c-t 1 Ct Builder R tCa-61p HVAC contractor A" to As -built changes vs - - submittal ADCF = Air Density Correction Factor, based on tool, ADCF attitude (5000'), air temperature through tool Volumetric flow (CFM 5000') = ADCF x Indicated flow (CFM) Date of 'Residential Mechanical Systems Design Submittal' information referenced by testing technicians .,. ♦ .a 3 r. .F'r - r � wr ':" � yP;:" fi•� „n. J Ink ���'" J" i.t c� t " .{ ��,v �,... 2 xL'bcal,Exhaust. Sr�ot Ventilation),,, Bath exhaust Testing tech (initials) Flow X Flow box tot tube duct traverse Air tompn ADCF O tool Passive flow hood Other (note below) through tool of (F) (F) Measured Airflow Design Alrflow Minimum Airflow Requirement Indicated Volumetric Exhaust Pickup Location (CFM CFM 5000' ( ) Flow Flow Pass Fall 5000' +Type of Operation (CFM) (CFM 5000') H B A 256`lnteriniltonl 20 Contnuous. —r. Sro ® ❑'• ®50 lnlertniltent, 20 Continuous. r� ® ❑ 13 Q a 50 Inletmiltert 20 Continuous 2 O ®❑° ❑, 50'fnlermitlent 20 Continuous ❑ 50 In)ermlttent 20 Confiriuous,;'- 501nlermitliint, 20 Co Unuous' ❑. ❑, 5014e61tte4t 20Continuous; l Testing notes Kitchen exhaust N/A - hood does not vent to outside El Testing tech (initials)VIJ Oven fuel Gas ❑Electric Minimum airflow requirement (CFM 5000') + operation Q1g0 Intermittent a 25 Continuous Measured airflow Flow Flow box Pitot tube traverse rptedw Interior grille Air temp Tool Passive flow hood ❑Flow grid Exhaust duct through ADCF tool powered 0ow hood Other (note below) location tc mnaeon not OK) tool (F) Indicated flow CFM Volumetric flow CFM 5000' F] ❑ Pass ❑ Fail Testing notes MAI r�l raga. 0N1_y Residential Mechanical Design Submittal V20140307 Page 1 Systems other than sub -structural floor exhaust Testing tech (initials) 5000' Design venaironr— CFM 5000' ❑ F�chaust-only Code -minimum ventilation airflow CFM fl � airflow System (based on CFA and # of BR) Supply -only type Balanced CFM 5000' ❑ Target ventilation airflow range- (code.minimum) (120%ddoelannow) Measured Airflow Air Tamp Indicated T Volumetric Measurement Method Tool Location Through ADCF Flow Flow Pass Fail Tool (F) (CFM) (CFM 5000') Total [I N/A ❑Passiveflow hood ❑ ❑ exhaust ❑ F(ow box ,� Pilot tube traverse airflow ❑ Flow collar Other (note below) Total ❑NIA ❑ Passivo flow hood' ElY❑ supply ❑ Flow box. ❑ Pilot tube traverse, airflow mow'collor, Olher (note.below):-1:, ' - When supply airflow Is circulated by air handier fan, fan speed for measurement) Heating ❑-Cooling ❑- Continuous fan Balanced airflow in balanced systems Average of measured CFM r supply+exhaust flows 5000' Testing notes "(Air.) �Lcs�R dt1L�/ Target flow range ; _ �o , CFM ❑Pass ;Fail (average+/-15%) `' - 5000' Sub -structural floor exhaust ® WA — no sub -structural floor exhaust system Testing tech (initials) W167 Design exhaust airflow (based on CFM 5000' Target alrfow limits � '•-'" CFM 5000' approved design) Measured airflow Flow Flow box Pilot tube traverse Tool Air lamp to Q Passive (low hood ❑ Flow c`(notF through❑ ADCF � Powered (low fiood Other (note below) location tool (F) Indicated flowl CFM Volumetric flow CFM 5000' ❑ Pass ❑ Fail sr. * ed'. 1 "ri .�t: �M yry 1 s ,.� 5 t ': d "H.n ef'§Hgating +Cooling D,WOUdakage} a:» r: X:�' ° r 34 <,� .R�. 1 a 4: ■ cluc,twork Testing notes ►� No ch'ctwrdr�k outside :co6ditioned =space (ind multiple sy3) Duct leakage 'Energyrater(name; data source — rn l lli Bn aS company,'les0ng data): �u5 2-2 ZUi J House conditioned floor area sf Air lomp ADCF lincludofull basement) �� through tool (F)� Maxlmum Allowed Duct Leakage Measured Duct Leaka o System #1 System #2 Test Parameter and Conditions Normalized (CFM25 5000' 1100 sQ Absolute (CFM25 5000') Indicated (CFM25) Volumetric (CFM25 5000') Leakage Typo Timing Air Handler Pass Fall Pass Fall Total leakage Rough -In Excluded 3 1`7 �`' ❑ ❑ ❑ Total leakage Rough -in Included 4 - ❑ '❑ ❑ ❑' Total leakage Complete Included 4 - -- ❑ ❑ ❑ ❑ Residential Mechanical Design Submittal V20140307 Page 2 For multiple systems, attach one page per system System kE] Which parts of house does it serve? 5u_O"J-0 r-rs=oR_ Installed equipment (Be clear about which AC components are Installed at time of testing) Testing tech (initials) Furnace or Boller AC or Heat Pump Condonsor A/CI or Heat Pump Coil Manufacturer A rNRN Am"A t-4vvIAnJA Modelp �r�15Sq(oo`�CC3r�fbl �Sx(3oari I D (�i�Fr`da�}C3(o 0 —Electrostatic Basic fibeiglass Thickness H MERV❑Filler Type Basic pleated Other: (inches)(optional) brand (tArdir� _'High-effic pleated Testing tech (initials) L411V °ISpee,d: Q Heating ®.•Coolirig-Q Cont: fan High-stago'for multi -stage equipment speed tap: for damper: ®NIA Lf Op'eri (Heating) )]Closed (Cooling) registers open Zone dampers open SP1 a� o \ AP Filter C) 3 (SPI - SP2) Cooling: Measured air flow through indoor coil Design cooling airflow G I C CFM 5000' (high slago) O 1 (Sarno locouon SP4 for NSOP, TFSOP) AP Coil 5a (SP3SPM1) ' 7 SP3 / tF AP Total ESP 5 Ss '. ISP3SP2) SP2 7 EIN/A— no AC Installed Testing tech (initials) To(del airflow limits ., " t ` ,' i CFM 5000' (design +/-15%) (oQlo e'- . '. 4 � i... Measured airflow �A Flowgdd rw 14 Air temp through -7O ADCF ( O��l' NSOP -�3 Flow Ron Facto TFSOP ( Correction Factor \ plate size 20 tool F Measured airflow, no adjustmenticorrection S CFM Indicated airflow Measured AF x FRCr �CFM Volumetric airflow 6 , 500 Indlcaled AF x ADCF I Q� 5000' ®Pass ❑ Fall Heating: Gas manifold pressure (Ngh stago) Testing tech (initials)® ® Manifold pressure a IWC Target manifold P Measured � l0 3' � u IWC 3 , µ'r IWC Pass OEM spec @ 5000' 3.5 limits (spec +/- 5 ) r , ; , .(I %' pressure Fail Heating: Temperature rise Testing tech (initials) OEM temperature rise limits C to " F (high stage) J 55 Supply Return _ Tomp ®pass ❑Fail Caution: within tOF Measured temps (F): air l a� — air �� rise S�'+' of top of range Residential Mechanical Design Submittal V20140307 Page 3