Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
2021 Yearling Dr - Disclosures/Mechanical - 10/06/2014
City of Fort Collins Residential Mechanical Systems Performance Report This form is a record of testing targets and results, with PasslFail outcomes. For Information on measurement tools and testing techniques, see the 'Residential New Construction Mechanical Systems Testing Gulde.' The guide and this form may be periodically updated; check the Building Services web site for the current version. 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 Mrasured Value i. Targe(y tocomparewi(h Pass a� CaUUom Other ar11m7) ,, t�rgatorlimit;. date ADCF = Air Density Correction Factor, based on tool, ADCF altitude (5000'), air temperature through tool Volumetric now (CFM 5000') = ADCF x Indicated How (CFM) e 0 Address 2021 Yearling Dr Date of'Resldential Mechanical Systems Builder D-R HORTON Design SubmittaP Information referenced HVAC contractor Four Seasons Heating by testing technicians As-bullt changes mech design subml Testing date(s) Monday 10/06/2014 2 ,361. i f au�st (5pot;1 n tlation)A , -times- » :f V Bath exhaust Testing tech (Initials) FRS (:y FlowFZFiow box _ Pilot tube duct traverse Airtemp `1=± tool Passtve flow hood _ Other (note below) through tool (F) ADCF 1.098 Measured Alrflow Design Minimum Airflow Requirement Indicated Volumetric - Exhaust Pickup Location Airfiow (CFM 5000') Flow Flow Pass Fall (CFM 50001 +Type of Operation (CFM) (CFM 5000') Bath #4 SO�[nlQ t la x' 20 Co bnuau 63 :=4�0 tngrmiHenE t` i,'2brjCdOHn�ouBy 0. �[�. '. so Interm�ltentx 20 GiinunuggS law p . U.i g5b Intetrrl (tent 20 CghUnupUs > r' F 50 tntermitTenl "� �o £on�nu(ius � Q �„�] G,ayt- t 50xtn�r�rtlUeat 20 Cdnluous d HIO :: a 50lnlenn'�ltettlY 5 . 2t1 continttpus >MENU Q -`^ Testing ' notes Kitchen exhaust N/A - hood does not vent to oulslde Testing tech (Initials) R.S Oven fuel i/ Gas _ Elecldc Minimum alrnow requirement (CFM 5000') + operation 1691It0rpi4100,25 C,onUtlrgGs)- .Measured airflow Flow �: tool Flow box _ Pitot tube traverse — Passive flow hood _ Flow grid Tool location ✓Interior rille Exhaus9ducl Air tem through 66° ADCF 1.098 .: Powered flow hood Other (note below) (Ettadw termination notoK) tool (F) .' Indicated flow 180 CFM Volumetric now CFM 5000' [ Pass P Fail 9s: Testing notes Residential Mechanical Design Submittal V20140101 Page 1 6..Refr(ger'ant;Charge�� ��- � #, ; �C. .-.r... ITesting tech (initials) Testing approach and targets n =' ❑ NIA: No complete AC system ❑ NIA: House completed November - April (installing contracterresponsible tortesting Inwarmweather) X✓ t A. @ TXV: Subcooling + SH check ❑Non TXV: Superheat El OEM -specific: Approach ❑ Other OEM -specific (documentation required) r Temperatures (e' 9 ndansepr� Non•TXV: Return Target—,rssH'; Target '"'`�`,,?= Target 'x?t F : entering air temp 75 air wet -bulb temp suoerheat " subcoolina � ` z aaoroach x '` ' Subcooling ` Discharge presPrge 275 Condenser saturation T 90° F Liquid Iino 82° F Actual' subcooling 8° � . F m TXV Pass: Actual SC within +)- 3 F of target SC, 2 F min f? ..;�.,` (PSI) (SOoo'chad) temp (oond7•nquneT) i::;•:; ;isa:::: TXV Fall Superheat j Suctlonr ,, g pressure Evaporator saturation T F Suction Iino F Actual = , superheat S; : F j] NOn•TXV Pass: Actual SH within +1- 5 F of target SH rye (PSI) (sgoo'u,ad)❑ temp (suctanaT•avepT)%%' 1 INon-TXVFall TXV Checks: F1 Pass: Field -Installed TXV installed In accordanrn w11h OEM Inelmcllnns 'n Cal dtnn• Arh ial SI-1 nulnldn mrnr rnnnn Approach ' Liquid line Actual Actual approach F ❑ Approach Pass: Actual approach within +/.1 F of target approach temp (Ltq line T.condenser FAT) ` ;Approach Fall 7a Rboin Air.F.low +'.Pressure.Batance' AJI registers are cut through finish materials and moving air pass a� (Remainder of register alr flow section under development, not yet being enforced) Pressure balance Testing tech (Iniliats)RS Room Room -to -Core Measured (match names an plans, include Pressure Drop Pressure Pass Fall basement if there is a door) Target Range (Pa) Drop (Pa) s Master Bed '` 9f�O'"t3 0 7h, 4 Bed #2�� Bed #3 3e C 1 t d �f 3f'�i5:. 1 3r . US .E `����0�'F�as s � ❑ a F'N' F.WHO, yr�}t'"" 0'i��,1F' ❑ MIN �L vYv/-.�.yi...t sv'F fi Jx vN ❑ �. a Age{'+-$vi643'.4e r � Residential Mechanical Design Submittal V20140101 Page 4 Combustion safety testing N/A — no netural-draft combustion appliances Testing tech (InlUals)� (Appliance Types table must be completed for every home) types Appliance CombustionType WA DraR-hood Naturaldraft Induced -draft NaturaWreft Power- vent Direct- vent Poweredsealed- combustion Electric Furnace #1 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Furnace #2 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Boller #1 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Boller#2 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Water heater #1 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Water heater #2 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Fireplace #1 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Fireplace #2 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Other. ❑ ❑ ❑ ❑ ❑ ❑ ❑ se depressurization performance etu These doors are # of bath fans on Vented range hood on Clothes dryer on Air handler on fans on: Other setup note Outdoor temperature=F CAZ pressure BPI depressurization limit (Pa wrt outside) Measured net CAZ depressurization (Pa wd outside) OK (less negative) ( Caution (more negative) BPI maximum limit (seconds Measured spillage duration (seconds Pass = duration not exceeding limit aft pressure BPI Ilmlt (Pa vrtt CAZ Measured (Pa wrt CAZ Pass = pressure more negative than limit t tl 1 dl -c; l>.. Y. ed.F -KR �i .�'�rxVLYfr �l. n ' >Q OK rQ_ Caultoo '•;❑.; OK ' a Caution ❑'�. OK ©v Caution $Q?psi s„^'< _z ^* i a-p(rn -�. yfs ''. >-..re y�. 8Q4 • `rCd^.�. -. �: - '."'-� : s::. '< 3• a:M,+ l/' vn. tY J+13 r. i:�,+3�g.. i :�❑ Pass 11 ` Faily ❑ Fall (�;]Pass[�7 Falb ,Pass<~ r ba ? 9 re 45Jxv 5 r tSk Z i M]� Pass Pass lQ Fail ' Pass ;�` b ;-"Fail concen ra on n un luted Bus gas BPI maximum limit (PPm) e s�� n,�D )Y "�. Measured CO Pass = CO level not exceeding limit Caution = CO level 25 to 100 ppm (PPm) , .a �� ' � r. x , a ^I [] Pass Fall �;; Passkq!{, _ Fafl [],. Pass®_: FaII Q„ Caution 5flts r. Caution F; Caution Residential Mechanical Design Submittal V20140101 Page 5 9. System Controls Testing tech (Initlels) FIS System Controls Operating Per Design Intent Local exhaust (all fans) ❑ WA Pass R r�L, Fall Whole -house ventilation. WA ' ❑ ; Pass MAP` Fail Sub -structural floor exhaust ❑ N/A '~(]" Pass Fail �cx Heating (all systems) ❑ N/A Passjj`= Fall Cooling (all systems) ❑ N/A iij Pass n .k Fall A Testing Notes Technician 01 performing inspection and testing documented on this report (Approved Agency) 101 I certify that the tests referenced above, In sections bearing my Initials, were performed In accordance vAth protocols speGged by the City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my knowledge. 10 No t Signature Technician �#2 performing Inspection and testing documented on this report (Approved Agency) f±< 1 certify that the tests referenced above, In sections bearing my Initials, were performed in accordance with protocols specined by the City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my knowedge. FBI{j No xf g�a Signature HVAC Contractor (City of Fort Collins license holder) certify that I have reviewed this report and that the test results are an accurate representation of the performance of the Installed mechanical '(k4.systems. 11 Name (print) Lynn Cobb I F Title Project Manager Company Four Seasons Heating Signature and Date Lynn Cobb 10/7/14 Residential Mechanical Design Submittal V20140101 Page 6 3 Wfioie Dwelling tJriitVentlaton,a' : `' Code -minimum ventilation atr0ow 9 CFM 5000' Design ventilation (based on CFA and # of BR) airflow 79 CFM 5000' 9 CFM 5000' Target ventilation airflow range ."- r �.tw�deanlNmGm)`r-� � , (12oYob'jda5ign amv}�. Testing tech (Initlals) R.S System Exhaust -only typo —Supply-only —Balanced t4I Measured AlrBow AlrTemp Indicated Volumetric _ Measurement Method Tool Location Through ADCF Flow Flow Pass Fall - Tool (F) (CFM) (CFM 5000') Total exhaust N/A Passive flow hood Flow box ' - ln"t �[ _ Pilot tube traverse Main Bathroom 386 1.098 84 alr0ow — Flow collar — Other (note below) Total N/A _ Passive flow hood . • s ;-' } supply — Flow box — Pilot tube traverse; airflow, — Flow collar — Other (note below) - E When supply airflow Is circulated by air handler ran, fan speed for measurement Heating Cooling Continuous fan glanced airflow In balanced systems Average of measured CFM supply+ exhaust flows 5000' Target flow rangeCFM CFM (average +/- 15%) !"'l 5000, Sub -structural floor exhaust ® N/A -- no substructural floor exhaust system Testing tech (inlllals) R.S, Design exheus11rflow (based on�CFM 5000' Target alrllow Omits x� t .', approved design) (design +/• 15%) c , , r 2',�,' r�. ?"(3 CFM 5000' A:?Meesurad airflow i Flow —Flow box _, Pilot tube traverse Tool Air temp tool —Passive flow hood — Flow collar location thro ` ;❑ ADCF —Powered Oow hood _Other (note below) toot F S ;, Indicated flow CFM Volumetric now x - .-, `.' CFM 5000' Q Pass jj%lFail IN Testing 's. neteS +' OW,,fir>. 3 Y ff A i'l�b`i'i` 5e �! N/A — No ductwork Testing notes ✓ ductwork No outside conditioned space Md mutuplo aya)� Duct leakage — Testing tech (Initials): data source — Energy rater (name, company, testing date): House conditioned floor area Air lamp sf ADCF (14duds full basemwl) through tool(F) Maximum Allowed Duct Leaka a Measured Duct Leakage Test Parameter and Conditions Normalized Absolute (CFM255000'l100aQ (CFM255000') (ndicated Volumetric (CFM25) (CFM255000') System #1 System #2 Leakage Type Timing AlrHandler Pass Fall Passl Fall Total leakage Rough -In Excluded 4 -` x._ Total leakage Rough•in Included 6 'ram"i`` ' Total leakage Complete Included 12 �� ❑ }� ❑ to outdoors Complete Included 8 Residential Mechanical Design Submittal V20140101 Page 2 For multiple systems, attach one page per system System #F—] Which parts of house does It servo? MAIN & BSMT Installed equipment (Be clear about which AC components are Installed at time of testing) Testing tech (initials) R.S Manufacturer Model # Furnace or Boiler AC or Heat Pump Condenser AC or Heat Pump Coll BRYANT CARRIER BRYANT 912SB4806OS17A CA13NA024 CNPVP3017ALAAAM ✓ Basic fiberglass _Electrostatic rand Type_Basicpleated —Other. Thickness MERV❑ brand _ High-efilc pleated (Inches) (optional) Static eed: _ Healing ✓ Cooling _ Cant. tan Hfgh-stage for multi -stage equipment ver speed tap: MED HI ildifferdamper: N/A _ Open (Heating) _ Closed (Cooling) All registers open Zone dampers open SPt _141 AP Filter 23\ (SP1- SP2) Cooling: Measured air flow through indoor coil q ` . Design cooli ggh fs flgo w 1082 CFM 5000' (hrw3 Measured alrflow ❑ N/A -- no AC Installed Testing tech (Initials) R,S (Same lxaeon for NSOP, TFSOP) SP3 44 AP Total ESP 208 (SP3-SP2) Testing tech (Initials) R.S Target airflow limits -e s zr`r 'Ts1T� e g (design +/-15% 10y in �244 3T `F CFM 5000' � Air temp,gh 44 Flow grid 14 through 86° ADCF 1.098 NSOP plate size �[ 20 tool (F) Measured airnow, no 010 CFM Indicated alrnow 1010 CFM L {F adjustment/correction Measufed AF s FRCF -!�'n Testing notes Heating: Gas manifold pressure U Manifold pressure (4 OEM spec @ 5000' 3.5 IWC U (hlgh stage) Target manifold P limits (spec+/- 5%) TFSOP 37 Flow Resistance 1 Correction Factor Volumetric alrnow:CFM ,Pass 1108: ne�tedAFxAocF 5000( Fall Testing tech (Initials) R.S Iwo Measured 3 4 IWC �®Pass PTO ssure FaII b` Heating: Temperature rise OEM temperature rise limns °$:' R 90 k to70r xH F I (htgh stage) "�gMeasuredtem s F; Supply119, _ Return _ Temp , P () elrFJ air 67' — rise m Pass F Testing tech (initials) R.S Fall Caution: within 1OF °? Iof top of range Residential Mechanical Design Submittal V20140101 Page 3 6. Refrigei-aot.Charge Testing approach and targets Testing tech (Initimm %'y"'-❑N/A: No complete AC system NIA: House completed November-Apol(mstaams convadw roaponswerm tesBns to wens weather) 3'u �'=. m TXV: Subcooling + SH check ❑ Non-TXV: Superheat ❑ OEM-speciRc: Approach ❑ Other OEM-spacl0c (aoeumenla0en requimd) S 3s Temperatures Condenser Non-TXV: Return Target r"# Target .'�z: Targets (F): entering air temps air wet -bulb temp superheat �, c subcoolina Drench Subcooling i' Dlschar a g pressure 280 Condenser saluratlon T 92° F Liquid line BO° F Actual +`' subwoling 12 �'' F 0 TXV Pass: Actual SC within +/- 3 F of target SC, 2 F min (PSI) (tu O�chad) tomp (CondT-rgfineT) La[TXVFail Superheat Suction pressure❑ Evaporator saluratlon T❑F Suction if Actual „ ,' superheat "> F Non-TXV Pass: Actual SH ❑withfn +/• 5 F of target SH (PSI) (PSI) (5000'Marl) temp (suet fine7•evap TJ .,., ,..':......,. QiNon-TXV Fell TXV checks: [a Pass: Ffeld-installed TXV Installed In accordance with OEM Instructions f)N Caulion: Actual SH outside mfgr range APproaeh r_ ` Lfqult temp > temp F Actual approach (Llq 6ne7-condenser. EAT)» ' : ...,!, F 0 �QApproach Approach Pass: Actual approach within +/- i F of target approach Fail 7. Room —Nit. Flow + Prest"U Balai cia,�IM0a All registers are cut through rinish materials and moving air Pass t ry ° tl Register air flows Testing tech (Initials)FR.8 MlFall (Remainder of register air flow section under development, not yet being enforced) Pressure balance Testing tech (Initials) R.S :ram; peg: Room Room -to -Core Measured (match names on plans, Include Pressure Drop Pressure Pass Fall %^=? basement If there Is a door) Target Range (Pa) Drop (Pa) Bed T. �`Y'r'.'N >"� � s t3Q r z �O y4 :s qxp Bed #5r :s Tin 1 seiru�'� vy 1 s.a Hsyxfx'f e*3Y ❑ fo . ❑ im '•�YCy� It -A Residential I Combustion safety testing N/A — no natural -draft combustion appliances Testing tech (inttials)� (Appliance Types table must be completed for every home) Appllance types All,=mil` Combustion Type Appliance NIA Draft -hood Induced -draft Power- Direct- Powered sealed - Natural -draft Natural -draft vent vent combustion Electric „> Furnace #1 El El El ❑ ❑ ❑ El Furnace #2 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Boller #1 ❑ ❑ El❑ ❑ ❑ ❑ Boller #2 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Water heater#1 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Water heater #2 P3 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Fireplace #1 ❑ ❑ ❑ El El❑ ❑ Fireplace #2 ❑ ❑ ❑ ❑ ❑ ❑ ❑ Other. ❑ ❑ ❑ ❑ I ❑ ❑ ❑ ;t-case depressurization performance use seta These doors an _ # of bath fans on Vented range hood on _ Clothes dryer on _ Air handler on Other fans on: Other setup not Outdoor temperature = F z pressure BPI depressurization limit (Pa wrt outside) Measured net CAZ depressurization (Pa wn outside) OK (less negative) I Caution (more negative) Illago BPI maximum limit (seconds Measured spillage duration (seconds Pass = duration not exceeding limit art pressure BPI limit (Pa vat CA2 ' yI^ }553" _ OK : _ _..._- Caution ❑ ; OK ''❑" Caution Q.. OK s_ [7: Caution l6pr 3s75 sl ;;[]r Pass Fall ,❑ ,. Pass W) Fail© -Pass s e. Fall 'S.,Ai"5�✓"� x'",`:✓'-'l,�,��i...fIN J )❑ _Pass �Q� Fell � Q_ Pass (�d Fall ❑ i Pass Measured (Pa wrt CAZ) Pass = pressure more negative than limit i concentration In undiluted flue gas BPI maximum limit m (PP ) Measured CO- ""' "*"`"� 4w , Pass = CO level not exceeding limit Caution = CO level 25 to 100 ppm '� Pass Fell . Pass ©y; Fail �]._ Pass (a x a Fall lftj_':5 Caution ❑ Caution 06 Caution Residential Mechanical Design Submittal V20140101 Page 5 9. System Controls System Controls Operating Per Design Intent Local exhaust (all tans) ❑ WA `Q.i Pass `�'t"�13 �xz Fail Whole -house ventilation ❑ WA ( a Pass f. Fail Sub -structural floor exhaust Q WA ',_].. Pass ;;[--,, Fall Heating (all systems) ❑ WAs.Q)? Pass Fall Cooling (ell systems) ❑ WA �.�,:� Pass Fail TeslIng tech (Initials)F." Testing Notes iSignatures Technician #1 performing Inspection and testing documented on this report (Approved Agency) y i certify that the tests referenced above, In sections bearing my Initials, were performed In accordance with protocols specified by the F City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my knowledge. Name (print) RIGOBERTO ry Title TECH cy Company FOUR SEASONS HEATING r s Signature and Date RIGOBERTO SANTIBANEZ Technician #2 performing Inspection and testing documented on this report (Approved Agency) rN I certify that the tests referenced above, In sections bearing my Initials, were performed In accordance wfih protocols specified by the �,Clty of FortCollins Building Services Department, and that the reported results are accurate to the best of my knowledge. '� Ne Signature HVAC Contractor (City of Fort Collins license holder) 20 yql certify that I have reviewed this report and that the test results are an accurate representation of the performance of the Installed mechanical systems. Name (print) Title Company Signature and Date Lynn Cobb Project Manager Four Seasons Heating Lynn Cobb 1017114 Residential Mechanical Design Submittal V20140101 Page 6 City of Fort Collins Residential Mechanical Systems Performance Report This form Is a record of testing targets and results, with PasslFail outcomes. For Information on measurement tools and testing techniques, see the 'Residential New Construction Mechanical Systems Testing Guide' The guide and this form may be periodically updated; check the Building Services web site for the current version. 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 s �' }Target Meesuredvalue< s x Other a t to comperfl with Pass r aka CauUo)w.. �Imlf s tergstorlimltU.,t x . data 14 ar i" K?i' ADCF = Air Density Correction Factor, based on too], ADCF altitude (5000'), air temperature through tool Volumetric flow (CFM 50W) = ADCF x Indicated flow (CFM) • f• Address 2021 Yearling Or Date of'Residenlial Mechanical Systems Builder D-R HORTON Design Submittal' Information referenced HVAC contractor our Seasons Heating by testing technicians As-bullt changes mech design submit Testing date(s) 2 �al,Ehust(3otVetiltioW�`MR 'ajnA� _t �. Bath exhaust Testing tech (Initials) R.S r Flow ✓Flow box Pitot tube duct traverse Air temp p 5° tool flow hood Other (note below) through tool ADCF 1.OB6 —Passive (F) Measured Airflow Design Airflow(CFM Minimum Alrliow Requirement Indicated Volumetric Exhaust Pickup Location (cF (CFM 5000') Flaw Flow Pass Fall + Type of Operation (CFM) (CFM 5000 ) r Master Bath a`gifi eil-,K- F 3 2 yni—, � 85 92 h - {Zl + W tKJ� ' W!C (�' ? Laundry 74 24 ,`aDSnteRntttentZoCont�Tni,oks Bath #2�501 tfjnilttin>0 Congnuay 78 rt ` s5010trriR11i8i)lrE�Y�no Con11pl�tVsv r .. ❑, .AS% < a 50,4 WO 50� InTIlliOk y ' Testing 3 notes c�3 Kitchen exhaust NIA - hood does not vent to outsideEl Testing tech (Initials) R.S >Ys a Oven fuel _Gas —Electric Minimum alrtlowrequirement (CFM SCOW) +operation , �1PROATMANlttflnt ,�„y25Cof'itfn�otisa =Measured airflow Flow —Flow box — Flow tube travers� Tool — Interior grille Air temp _Passlve0owhood—Flowgdd Exheuslduct through ADCF tool — Powered flow hood — Other (note below) IC F)( l�nenorremunanon nor ox) tool (F) OR Indicated flow CFM Volumetric flow �' - CFM 5000' I] Pass Fall .. ..<..... ............ Testing notes Residential Mechanical Design Submittal V20140101 Page 1 Systems other than sub -structural floor exhaust Testing tech (In!Uals) R.S I,_:` Code -minimum ventilation airflow Design ventilation (based on CFA and # of BR) CFM 5000' airflow�CFM 5000' System Exhaust -only > _ Supplyonly -' US" b '•`' -�" ate CFM 5000' type _Balanced Target ventilation airflow range�^�,�,,'�§ . s{oodetnGrmum)��" (]2�94-o(vdWgafl�']=w. ` Measured Alrtlow `•" AlrTemp Indicated Volumetric Measurement Method Tool Location Through ADCF Flow Flow Pass Fall °•'.�, Tool (F) (CFM) (CFM 50D0') Total _N/A _ Passive How hood . exhaust Flow box Pilot tube traverse alrflow -[ — Flow collar Other (note below)! — _ v� Total —N/A —Passive How hood supply — Flow box _ Pilot tuba traverse ` airflow Flow collar Other (note below) } "t — — )' When supply airflow is circulated by air handler fan, fan speed for measurement Healing Cooling Continuous fen Balanced airflow In balanced systems Average of measured CFM supply+exhaust now 5000' fF:} see Testing .x notes Target flow range ^t~"�'r 1 �x;��r�'s,.rc,.yzu CFM �" r '' (average+/-15°A) � F, O�+;,�; k`• 5000, ..Pass I AFall Sub -structural floor exhaust ❑ N/A— no substructural floor exhaust system Testing tech (Initials) K Design exhaust sirflow(based on Target airflow Ilmlts'a _'` z7�k,t f " rW+,. "k,i, CFM 5000' +/-15o/a ;, `.r'.�-`�cs '�'P' to' `=��r`'<< CFM 5000' ,.., approved design) (design )�. U `cti Measured airflow i x2 Flow —Flow box—Pitoltubetraverse Tool ` Air lam P -' tool —Passive How hood — Flow collar location through ADCF Powered flow hood — Other (note below) tool (F) 3 Indicated flow CFM Volumetric flow F ; ` CFM 5000' Pass Fall Testing notes s-' rkrek°' A� 1 - a'�` °.`rt .ti- h;. E 5 ,s ° Ka ' ° add .± Y b Ail tlry � - ti c ,� S •y�x;r°y 4 Heat)ng�+; Cooling :Duct L°eakage, a. - •, >. , v No ductwork Testing notes No ductwork.� outsideII data House conditioned Door area Air temp sf ADCF1=1 (mdude tun basommt) through tool (F) Maximum Allowed Duct Leakage Measured Duct Leakage System #1 System #2 Test Parameter and Conditions Normalized Absolute (CFM25 5000' / 100 aQ (CFM25 50DO') Indicated Volumetric (CFM25) (CFM25 5000') Leakage Type Timing Alr Handler Pass Fail I Paeal Fall Total leakage Rough -In Excluded 4Vll°lo 's.: Total leakage Rough -In Included 6.�,�'* Total leakage Complete Included 12 a age a"' Complete Included 8`-;r?laz§ `r�`, 3 ❑ ©'. to outdoors Residential Mechanical Design Submittal V20140101 Page 2 ,t , For multiple systems, attach one page per system System N 21 Which parts of house does it serve? Upper Level Installed equipment (Be dear about Mitch AC components are Installed at time of testing) Testing tech (Initials)F.S r Manufacturer tP '° Model# Furnace or Boller AC or Heat Pump Condenser AC or Heat Pump Coil BRYANT CARRIER BRYANT 912884806OS17A CA13NA024 CNPVP3017ALAAAAA Filter ✓Baslcgberglass _Electrostatic '-` Type _ Basic pleated _Other: ThlcknessMER ) brand _High-effic pleated (Inches) (optional)11 Static pressures '? Setup Speed:_ Heating ✓ Cooling _ Cont. fan _ Hlgh-stage for multi -stage equipment µ, Blower speed tap: HI Humidifier damper: ✓ WA Open (Heating) _ Closed (Cooling) =n ✓ All registers open x= Zone dampers open _n SP7 AP Filter _31 r (SP1- SP2) Cooling: Measured air How through Indoor coil Design cooling alr0ow 1082 CFM 5000' (high stage) Measured airflow SP2 -70 ❑ WA — no AC Installed Testing tech (Initlals) R.S SP4 7 fon (WNSOPP,, TFSOP) AP Coll ( AP coil 6 -SP3 51 / AP Total ESP 121 (SP3SP2) Testing tech (Initials) R.S Target airflow limits �s x = F .tz 3 Mr (design +l- 15%) 20 ',�I'S" i�„snr 4 t ,j 1- 471�,�, Misr r CFM 5000' r? ir Iom' Flow grid _ 14 Ahrou h 65° plate size 2 20 tool (F)❑ ADCF 1.088 NSOP 51 TFSOP 7 Flow Resistance Correction Factor 081 � Measured airflow, no� adjustment/correctlon 163 CFM Indicated airflow 1058 CFM Measured AFx FRCF Vo(umetnc alrtlow 1151 :.' CFM .Pass Indicated AFx ADCF $000 WFalt v_ Tasting SP3 TESTED ON notes THE SIDE OF FURNACE NOT ON FRONT, IN ORDER OF THAT NOT SO GOOD READINGS Heating: Gas manifold pressure 'XI (high stage) Testing tech (Initials) R.S -�, ffff_ Manifold pressure 3.5 IWC OEM apse Q 5000' Target manifold Py7�''- limits 5k) ° IWC Measured 34� ;.IWC ,Pass (spec+I- e ,.�" ,...� r pressure wall a Heating: Temperature rise Testing tech (Initials) FRS r OEM temperature rise limits ;`h'� `oi.i to7Qvf F " (high (high stage) M:'C s x Measured temps Supply 117° F: p (i tea...-+� _ Return __ Temp y 68' ,. �Y i.. ?x'''Caution: within 10F Pass wtj Fail air air rise, of top of range Residential Mechanical Design Submittal V20140101 Page 3