HomeMy WebLinkAbout5020 Cinquefoil Ln - Disclosures/Mechanical - 08/31/2015 (2)7131 f2�0I'<
City of Fort Collins Residential Mechanical Systems Performance Report Updated 3/7/2014
This form is a record of testing targets and results, with Pass/Fail outcomes. For information on measurement tools City of
and testing techniques, see the "Residential New Construction Mechanical Systems Testing Guide." The guide and Fort Collins
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
HVAC
Tar et
g
Measured value
Other
to compare with
Pass
Fail
Caution
or limit
target or limit
data
ADCF = Air Density Correction Factor, based on tool,
ADCF altitude (5000'), air temperature through tool
Volumetric flow (CFM 5000') = ADCF x Indicated flow (CFM)
0090 !4 U E FO L `/D Date of "Residential
f /I t t Mechanical Systems
La�dr>1w�K rJ m� Design Submittal"
�J¢A information referenced
�� _ �df.�/ij ✓ by testing technicians
As -built changes
mech design submi
Testing date(s) 1 6, aq- I
Bath exhaust
11
Testing tech (initials)
Flow _ Flow box _ Pitot tube duct traverse Air temp -7
ADCF®
tool _Passive flow hood —OOther (note below) through tool (F) / 1
Measured Airflow
Design
Minimum Airflow Requirement
Indicated
Volumetric
Exhaust Pickup Location
Airflow
(CFM
(CFM
(CFM 5000')
Flow
Flow
Pass
Fail
5000.)
+Type of Operation
(CFM)
(CFM 5000')
tYll AS]L--a TW
� Intermittent —20 Continuous
Tj I
b 6-
01
❑
a A-1-4
y_ a0 Intermittent — 20 Continuous
f..O;Q
t cl
Ef
❑
D(oGl _
✓0Intermittent20 Continuous
(D3
0
❑
50intermittent 20 Continuous
❑
❑
50Intermittent20 Continuous
❑
D
50Intermittent 20 Continuous
❑
❑
50 Intermittent 20 Continuous
❑
❑
Testing
notes
Kitchen exhaust N/A - hood does not vent to outside Testing tech (initials)=
Oven fuel —Gas —Electric Minimum airflow requirement (CFM 5000') + operation — 100Intermittent — 25 Continuous
Measured airflow
Flow — Flow box — Pitot tube traverse Tool — Interior grille Air temp
Passive flow hood _ Flow grid Exhaust duct through ADCF
tool _duct
flow hood _ Other (note below) OCBIIOn (Eztericr termination no: OK) tool (F)
Indicated flow CFM Volumetric flow CFM 5000' ❑ Pass Fail
Testing
notes
Residential Mechanical Design Submittal V20140307 Pagel
tech (initials)
Testing approach and targets
❑ N/A: No complete AC system ❑ NIA- House completed November - April (instaiiing contractor responsible for test ng in warm wealnar)
❑ TXV: Subceoling + SH check ❑ Non-TXV: Superheat ❑ OEM -specific: Approach ❑ Other OEM -specific (documentation required)
Temperatures Condenser Nan-TXV: Return Target Target I Target
(F): entering air temp air wet -bulb temp superheater subcooling aPProach
Subcooling
Discharge Condenser Li uid Actual ❑ TXV Pass: Actual SC within+!-
pressure❑ saturation T❑F Qine❑F subcooling F 3 F of target SC 2 F min
(PSI) (so0o•chart) temp (condT- liglinoT) '�TXVFail
Superheat
Suction Evaporator Suction Actual FE t
pressure
❑ saturationT❑F line❑F superheat F v
(PSI) (s000chan) temp (suctl.neT-evapT) Ot
TXV checks: ❑ Pass: Field -installed TXV installed in accordance with OEM instructions ❑ Caution: A
Approach
Liquid Iine�F Actual denser EAT)
F ❑ Approach Pass: Actual approach within
temp (Liq lin Actual
condenser EAT) 1-1 0 Approach Fail
Testing
Register air flows
All registers are cut through finish materials and moving air Pass ❑ Fail
_J
(Remainder of register air flow section under development, not yet being enforced)
Pressure balance
XV Pass: Actual SH
+1- 5 F of target SH
XV Fail
SH outside mfgr range
1 F of target approach
tech (initials
I
resting tech (initials)?
Room
(match names on plans, include
basement if there is a door)
Room -to -Core
Pressure Drop
Target Range (Pa)
Measured
Pressure
D—roryp (Pa)
ass
Fail
11l 41 n
-3 to +3
.� l�
❑
3 to +3
❑
-3 to +3
❑
1 ❑
3to+3
1❑
❑
-3 to +3
;❑
❑
-3 to +3
i ❑
❑
-3 to +3
❑
❑
-3 to +3
1 Cl
❑
-3 to +3
❑
❑
Residential Mechanical Design Submittal V20140307 I Page 4
CY(�.LC bustion safety testing N/A — no natural -draft combustion appliances
;.(Appliance Types table must be completed for every home)
Appliance types
Appliance
Combustion
Type
N/A
Draft -hood
Natural -draft
Induced -draft
Natural -draft
Power-
vent
Direct-
vent
Powered sealed -
combustion
Ele
'c
Furnace #1
❑
❑
❑
❑
❑
�—
Furnace #2
❑
Cl
❑
❑
❑
❑
Boiler #1
❑
❑
❑
❑
❑
❑
Boiler #2
❑
❑
❑
❑
❑
❑
Water heater #1
❑
❑
❑
❑
❑
Water heater#2
❑
❑
❑
❑
❑
❑
Fireplace #1
❑
❑
❑
❑
❑
❑
Fireplace 1*
❑
❑
❑
❑
❑
❑
!
Other.
❑
❑
❑
❑
❑
❑
Wor:
He
Outdoor temperature = F
CAZ pressure
BPI depressurization limit (Pa wrt outside)
Measured net CAZ depressurization (Pa wrt autside)
OK (less negative) I Caution (more negative)
Spillage
BPI maximum limit (seconds
Measured spillage duration (seconds
Pass = duration not exceeding limit
Draft pressure
BPI limit (Pa wrt CAZ
Measured (Pa wrt CAZ
Pass = pressure more negative than limit
CO concentration in undiluted flue gas
BPI maximum limit (ppm;
Measured CO (ppm
Pass = CO level not exceeding limit
Caution = CO level 25 to 100 ppm
tech (initial / —
❑ OK ❑ Caution ❑ OK I ❑ I Caution I ❑ JOK I ❑ Caution
60
60
60
❑
Pass El Fail
❑
Pass ❑ Fail
❑
Pass ❑ Fail
i
I
ElPass ElFail ❑ Pass I ❑ IFail I I ❑ Pass I ❑ Fail
100
100
j 100
i
I
❑
jPass
❑
Fail
❑
Pass I ❑
IFail
11 ❑
IPass
1 ❑ IFail
❑
Caution
❑
Caution
I I ❑
lCaution
Residential Mechanical Design Submittal V20140307 I Page 5
System
Controls Operating
Per Design Intent
Local exhaust (all fans)
N/A
Pass
❑
Fail
Whole -house ventilation
N/A
�
ass
❑
Fail
Sub -structural floor exhaustN/A
FEI
ElPass
ElFail
Heating (all systems)
N/A
�,
Pass
❑
Fail
Cooling (all systems)
N/A
Pass
❑
Fail
Testing
tech
Technician #1 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 protoco s specified by the
City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my knoWiedge.
Name (print)
Title
Company
Signature and Date
L
Technician #2 performing inspection and testing documented on this report (Approved Agency)
,1 certify that the tests referenced above, in sections bearing my initials, were performed in accordance with protoceIs specified by the
'City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my kno%bledge.
Name
Signature and
HVAC Contractor (City of Fort Collins license holder)
I certify that I have reviewed this report and that the test results are an accurate representation of the performan of the installed mechanical
systems.
Name
Title
Company
Signature and Date
Residential Mechanical Design Submittal V20140307 I Page 6
Systems other than sub -structural floor exhaust Testing
tech (initials)
Code -minimum ventilation airflow // Design ventilaton
000
CFA # BR) "7� CFM 5000' airflow CFM 5000:]
Exhaust-only
(based on and of
System Su I and
type
1p
Target ventilation airflo•.v range Z to (J� CFM 5000,
_Balanced
(race -minimum) (120°h of design (lav)
Measu
ad Airflow
Air Temp
Indicated
Volumric
Measurement Method
Tool Location
Through
ADCF
Flow
Flowet
Pass
Fail
Tool (F)
(CFM)
(CFM 5000')
Total
N/A Passive flow hood
exhaust
_ _
_ Flow box _ Pilot tube traverse
��
/ ���
��
�/
❑
airflow
Flow cellar Other (note below)
Total
N/A Passive flow hood
supply
_ _
_ Flow box _ Pilot tube traverse
❑
❑
airflow
Flow collar Other (note below)
When supply airflow is circulated by air handler fan, fan speed for measurement —Heating _ C
ling _ Continuous fan
Balanced airflow in balanced systems
Average of measured CFM Target flow range CFM
to
f 1
Pass Fail
supply + exhaust flows 5000' (average +/- 15%) 5000'
Testing
notes
Sub -structural floor exhaust 41VA — no sub -structural floor exhaust system
testing tech (initials)
Design exhaust airflow (based on CFM 5000' Target airflow limits to
CFM 5000'
approved design) (design +/-15%)
Measured airflow
Flow box _ Pilot tube traverse Air temp
Flow — Passive flow hood Flow collar Tool Fthrough
ADCF
tool _ location
_ Powered flow hood _ Other (note below) tool (F)
Indicated flow CFM Volumetric flow CFM 5000'
r-�
bFail
❑ Pass C
t-1
Testing
notes
AN
etl
N/
Testing notes
_ o ductwork
o ductwork outside conditioned space
(ind multiple sys)
_ Testing tech (initials):
Duct leakage
_ Energy rater (name,
data source
company, testing date):
House conditioned floor marea sf eat) 0 Air temp � ADCF
�
(intione furl basement) throU h tool F
Test Parameter and Conditions
. a..... ... ,.. ..�
Normalized
(CFM25 5000' / 100 sf)
.�......
Absolute
(CFM25 5000')
I ...
Indicated
(CFM25)
...... n.
Volumet
(CFM25 5
=
is
00')
System #1
System #2
Leakage Type
Timing
Air Handler
Pass
Fail
Pass
Fail
Total leakage
Rough -in
Excluded
3
❑
❑
❑
❑
Total leakage
Rough -in
Included
4
❑
❑
❑
❑
Total leakage
Complete
Included
4
❑
❑
❑
❑
Residential Mechanical Design Submittal V20140307 I Page 2
For multiple systems, attach one page per system
System #I ) ^1 Which parts of house does it serve? A��
Installed eq�uiip�ment (Be clear about which AC components are installed at time of testing) testing tech
Furnace or Boiler AC or Heat Pump Condenser AC or; Heat Puml
tUanuf�r6ver A_ 1 I h. i _ r A_ i
Model#I
A930/ftoe" S /3/7,+ I
LL(3La1-qgP-Filter s
asic fiberglass
Electrostatic
brand
TyperHigh-effic
asic pleated
_
_ Other.
Th
C�P.ptr7hM1rL
pleated
Static oressures
Speed: _ Heating _ Cooling _ Cont. fan
_ High -stage for multi -stage equipment
Blower speed tap:
Humidifier damper: _ N/A
_ Open (Heating)
—Closed (Cooling)
All registers open
Zone dampers open
SP7��
OP Filter E--
(SP1 - SP2) Y
SP2 0 7 2
Coil
MERV❑
(optional)
tech
(initials)
(Same location
• SP4 !! �— for P,
TFSOP)
DF Coil
(SP3-SP4)
• SP3
APT tat ESP ( g I
1. P3 SP2\ 7
Cooling: Measured air flow through indoor coil ❑ N/A - no AC installed
Testing tech (initials)F27 .
Design coaling airflow
(h:gh stage)
gr3U
ZS
CFM 5000' Target airflow limits
(design +/-15%)
to
70
�S
CFM 5000'
Measured airflow
plane size
20
Air temp
tFlowgrid `orOou�gF iG�'
(r
ADCF ((D� NSOP 3
TFSOP /��''
Resistance
CorreFlowction
Correction Factor
Measured airflow, no CFM
Indicated airflow CFM
Volumetric airflow
71(
j�/ Z
CFM -Pass
5000' '❑.Fail
adjustment/correction
Measured AF x FRCF
indi:atedAFxADCF
�
u
Heating: Gas manifold pressure
(Ngh stage)
1 esting tech (initials)
Manifold pressure 7 lWC
OEM spec @ 5000'
Target manifold P
limits (spec +1- 5%)
33 to 3,�
IWC Measured
pressure
S
IWC Pass
M
Fail
L.
Heating: Temperature rise
sting tech (initials)
OEM temperature rise limits?
3� F
(high stage)
Supply
Measured temps (F): ))
air 1z
Return Temp
- C = ss
air 7 / rise % 2— `1'"
❑ Fail
U
Caution: within 1 OF
41of top of range
Residential Mechanical Design Submittal V20140307 j Page 3
❑ N/A: No complete AC system ❑ N/A: House completed November - April (installing contractor responsib;e for testing in warn weather)
❑ TXV: Subcooling + SH check ❑ Nan-TXV: Superheat ❑ OEM -specific: Approach ❑ Other OEM-sp cific (documentation required)
Temperatures Condenser Non-TXV: Return Target Target Target
(F): entering air ternp airwet-bulb temp superheat subcooling approach
Subcooling
i
Discharge Condenser Liquid Actual TXV Pass: Actual SC within
pressure
❑ saturation T❑El
line❑F subcooling F 3 F of target SC, 2 F min
(PSI) (500G'chan) temp (Cand T-liq line T) 'D.TZV Fail
Superheat
Suction Evaporator Suction Actual ❑Non-TXV Pass: Actual SH
pressure❑ saturation T❑F line
superheat❑F within +!- 5 F of target SH
(PSI) (seoGohan) temp (suctiineT-evapl)❑N6n-TXVFail
TXV checks: ❑ Pass: Field -installed TXV installed in accordance with OEM instructions '[].Caution: Actual SH outside mfgr range
Approach
Liquid Iin�F Actual approach�F ❑ Approach Pass: Actual approach within 4-1 F of target approach
temp(Lgi:reT-wndenserFA) DApproach Fail
Register air flows
All registers are cut through finish materials and moving air ss Fail
J
(Remainder of register air flow section under development, not yet being enforced)
Pressure balance
tech (initials)`Y
esting tech (initials)I�ca�(i9
Room
(match names on plans, include
basement if there is a door)
Room -to -Core
Pressure Drop
Target Range (Pa)
Measured
Pressure
Drop (Pa)
Pass
i
Fail
15-•fner &0
3to+3
�r
El
-3 to +3
Fa, p
❑
-3 to +3
❑
❑
-3 to +3
❑
-3 to +3
I❑
❑
-3 to +3
10
❑
-3 to +3
j ❑
❑
-3 to +3
❑
❑
-3 to +3
❑
❑
-3 to +3
❑
❑
Residential Mechanical Design Submittal V20140307 I Page 4
Combustion safety testing N/A— no natural -draft combustion appliances
pliance Types table must be completed for every home)
Appliance types
sling tech (initials)
�
Appliance
Combustion
T pe
N/A
Draft -hood
Natural -draft
Induced -draft
(Natural -draft)
Power-
vent
Direct-
vent
Powered sealed -
combustion
Electric
Furnace #1
❑
❑
❑
❑
❑
❑
Furnace #2
❑
❑
❑
❑
❑
❑
[�
Boiler#1
❑
❑
❑
❑
❑
❑
Boiler #2
❑
❑
❑
❑
❑
❑
11
Water heater#1
❑
❑
❑
lif,
❑
❑
❑
Water heater #2
❑
❑
❑
❑
❑
❑
❑
Fireplace #1
❑
❑
❑
❑
❑
❑
Fireplace 92
❑
❑
❑
❑
❑
❑
❑
Other.
❑
❑
❑
❑
❑
❑
Worst -case depressurization performance
Outdoor temperature=F
CAZ pressure
BPI depressurization limit
(Pa wrt outside)
Measured net CAZ depressurization
(Pa wrt outside)
OK (less negative) I Caution (more negative)
Spillage
BPI maximum limit
(seconds
Measured spillage duration
(seconds
Pass = duration not exceeding limit
Draft pressure
BPI limit
(Pa wrt CAZ
Measured
(Pa wrt CAZ
Pass = pressure more negative than limit
CO concentration In undiluted flue gas
BPI maximum limit
(ppm
Measured CO
(ppm
Pass = CO level not exceeding limit
Caution = CO level 25 to 100 ppm
11
I
I
❑ OK ElCaution ❑ OK ❑ Cautio ❑ OK ❑ Caution
60
60
60
❑
Pass
IFail
❑
Pass 1
❑ IFail
I ❑
IPass 1
❑ IFail
i
I
❑ 113ass I ❑ IFail ❑ Pass I❑ Fail I Pass 1 ❑ Fail
100
100
100
❑
IPass I ❑ Fail
❑
Pass I ❑
IFaii
I ❑
Pass I ❑ Fail
❑
lCaution
❑
ICaution I
1 ❑
ICaution
Residential Mechanical Design Submittal V20140307 ; Page 5
Technician 91 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 protoco s specified by the
City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my knowledge.
i
Name (pent;
Title
Compan)
Signature and Date
Q-
ids ,�P{�J'le-vj
Technician #2 performing inspection and testing documented on this eport (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(
Corr
Signature and
HVAC Contractor (City of Fort Collins license holder)
' 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.
Name (print)
Signature and
Residential Mechanical Design Submittal V20140307 i Page 6
gf3,Izw(
City of Fort Collins Residential Mechanical Systems Performance Report Updated 3/7/2014
This form is a record of testing targets and results, with Pass/Fail outcomes. For information on measurement tools Cityof
and testing techniques, see the "Residential New Construction Mechanical Systems Testing Guide." The guide and Fort Collins
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
Measured value
Target
g
to compare with
Pass
Fail
Caution
Other
or limit
target or limit
data
ADCF = Air Density Correction Factor, based on tool,
ADCF altitude (5000'), air temperature through tool
Volumetric flow (CFM 5000') = ADCF x Indicated flow (CFM)
Address /1 I Date of "Residential
5oau 6A' air- FOI �. J_,� � I G Mechanical Systems
Builder 1 Design Submittal"
L&AµYKti-/ information referenced
HVAC contractor F/-vd-r 2AbIOL-16tE �,y)a�,,�,,L �,� by testing technicians
As -built changes
meth design submi
Testing date(s) a l5_I-5-
Bath exhaust
Testing tech (initials)
Flow _ Flow box _ Pilot tube duct traverse Air temp
ADCFq
� � �
tool —Passive flow hood —OOther (note below) through tool (F) %�
• I
Measured Airflow
Design
Minimum Airflow Requirement
Indicated
Volumetric
Exhaust Pickup Location
Airflow,
(CFM
(CFM 5000')
Flow
Flow
Pass
Fail
5000')
+Type of Operation
(CFM)
(CFM 5000')
YO (ASTM (jkTM
�'50Intermittent20 Continuous
J04
-71
Eir,
❑
&-w
WTO Intermittent 20 Continuous
65-
❑
Intermittent — 20 Continuous
,
G
❑
50Intermittent20 Continuous
❑
11
—50Intermittent20 Continuous
❑
❑
50 Intermittent 20 Continuous
❑
❑
60Intermittent20 Continuous
❑
❑
Testing
notes
Kitchen exhaust N/A - hood does not vent to outside Er Testing tech (initials)=
Oven fuel —Gas —Electric Minimum airflow requirement (CFM 5000') + operation —100 Intermittent — 25 Continuous
Measured airflow,
Flow — Flow box — Flow tube traverse Tool —Interior grille Air temp
Passive flow hood _Flaw grid Exhaust duct through ADCF
tool _Powered flow hood —Other (note below) location (Exterior Iertnina on not OK) tool (F)
r—�
Indicated Flow CFM Volumetr c flow CFM 5000' ❑Pass �: Fail
Testing
notes
Residential Mechanical Design Submittal V20140307 Pagel
�.
ff �.�:,r.�.,'.C;
h4�,V�e•-(.%.�H?-^"'�`^'4Y'�N.�.:''•' is %e. .V.f'::�::!lY'."x 4i...iit:i':F.7{y:ir..5�..:���:'::ft�5�l
���.:: °:'�`: sNR:'iF'��^,
Systems other than sub -structural floor exhaust r
sting tech (initials)
Code -minimum ventilation airflow Jj Design ventilation
CFA # BR) (� CFM 5000' airflow�CFM 5000'
-xhaust-only
(based on and of
System
Supplyonly
11 1
L/G to LI CFM 5000'
Target ventilation airflow range CC -t
(code-m!n?mum) (120%of dasign flow)
type —
_Balanced
Measured
Airflow
Air Temp
Indicated
Volumetric
Measurement Method
Tool Location
Through
ADCF
Flow
Flow
Pass
Fail
Tool (F)
(CFM)
(CFM 5000')
Total
exhaust
_ NIA _ Passive flow hood
box _ Pitot tube traverse
p
IS -
❑
airflow
Flow collar Other (note below)
Total
NIA Passive flow hood
supply
_ _
_ Flow box _ Pilot tube traverse
❑
❑
airflow
Flow collar Other (note below)
When supply airflow, is circulated by air handler fan, fan speed for measurement Heating COing
Continuous fan
Balanced airflow in balanced systems
Average of measured CFM Target flow range CFM
supply + exhaust flows 5000' (average +/-15%) to 5000,
P
El Pass ❑ Fail
L✓
Testing
notes
Sub -structural floor exhaust $hq7 _ no sub -structural floor exhaust system Testing
tech (initials)
Design exhaust airflow (based on Target airflow limits to
5000'
CFM 5000'
(design +I-15%)
approved design) (design
Measured airflow
Flow —Flowbox _Pilottubetraverse Tool Air temp
tool — Passive flow hood _ Flow collar location throughEl
ADCF
Powered flow hood Other (note below) tcol (F)
r-t
Indicated flow CFM Volumetric flow CFM 5000' ❑ Pass Fail
NIA o ductwork Testing nt
o ductwork outside conditioned space (incl multiple
Duct leakage — Energy rater (name,
data sourcel company, testing date)
House conditioned floor area
(include full basement) meat)
Test Parameter and Conditions
sf Air temp ADCF
lhrOuglh t001 (F)
Maximum Allowed Duct
Normalized
(CFM25 5000' /100 sf)
Leakage
Absolute
(CFM25 5000')
Measured Duct
Indicated
(CFM25)
Leak
Volum
(CFM25
Leakage Type
Timing
Air Handler
Total leakage
Rough -in
Excluded
3
Total leakage
Rough -in
Included
4
Total leakage
Complete
Included
4
System #1
1 System #2
Pass
Fail
Pass
Fail
❑
❑
❑
❑
❑
❑
❑
❑
❑
❑
❑
❑
Residential Mechanical Design Submittal V20140307 I Page 2
For multiple �fsystems, attach one page per system
System #I /— I Which parts of house does it serve?
Installed equipment (Be clear about which AC components are installed at time of testing)
Furnace or Boiler AC or Heat Pump Condenser
Modelffl R�3VELlj�'t31'zA I 4,�Cu.13LE13,y P-5 I TG
FilteBasic fiberglass _ Electrostatic Tl
brand —
Type _ Basic pleated _ Other:
High•effic pleated
Static Dressures
Speed: _ Heating _ Cooling _ Cont. fan
_ High -stage for multi -stage equipment
Blower speed tap:
Humidifier damper: _ N/A
_ Open (Heating)
_ Closed (Cooling)
—All registers open
Zone dampers open
SP1
tech (initials)
-136 -1 I
« MERV
(optional)
gg tech (initials)I�z,...A7_
for NS ocagon - --
for NSOP,
TFSOP)
Coil
=SP3 r
AP Total ESP I n
AP Filter I I I` I T& _.::: _: 9'`T: I
(SP7 - SP2) If
SP2 (�(
Cooling: Measured air flow through indoor coil ❑ N/A-- no AC installed resting tech (initials)_ .
Design cooling airnow77 CFM 5000' Target airflow limits �a to C? S CFM 5000,
(high stage) Q JQ (design +!-15%)
Measured airflow
Air temp
Flow grid 14 through F ADCF / p NSOP� TFSOP /` / Flow Resistance
plate size 20 tool F / f Z Correction Factor
Measured airflow, no Indicated airflow / Volumetric airflow CFM ❑ Pass
adjustment/correction CFM MeasuredAFxFRCF rC�Z CFM IndicaledAFXADCF 7` z- 5000, Fail
�J
Testing
notes
Heating: Gas manifold pressure (high stage) Testing tech (initials)_
Manifold pressure ^� IWC Target manifold P 7 3 to IWC Measured '1^r IWC SPass
OEM spec @ 5000' limits (spec +/- 5%) J 3 pressure J Fail
Heating: Temperature rise Testing tech (initialsc��
OEM temperature rise limits /
(high stage) f0 �� F
Supply 7 Return Tempf, t auticn: within 10F
Measured temps (F): p /3y� — ''%/ = e II] Fail
air air r w rise """ L� of top of range
Residential Mechanical Design Submittal V20140307 I Page 3