HomeMy WebLinkAbout320 Urban Prairie St - Disclosures/Mechanical - 01/30/20171 - 0
City of Fort Collins Residential Mechanical Systems Performance Report
Updated 317/2014
This form is a record of testing targets and results, with PasslFail outcomes. For information on measurement tools
"Residential
City of
Fort Collins
and testing techniques, see the New Construction Mechanical Svstems Testing Guide." The guide and
this form may be periodically updated; check the Building Services web site for the current version.
�T�— ta:rlles
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
Target
g
Measured value
Other
or limit
to compare with
Pass
Fail
Caution
data
target or limit
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 320 Urban Prairie Wy Date of 'Residential
Mechanical Systems
Design Submittal'
information Builder Philgreen Construction referenced
HVAC contractor Perfect Ternp by testing technicians
As -built changes
mech design submi
Testing date(s) Duct testing 10/25/16 - Final Testing 1/20/17
WaagwD
Bath exhaust
Testing tech (initials) FNG
Flow Flow box Lj Pitot tube duct traverse Air temp 70
ADCF 1.098
tool Passive flow hood Other (note below) through tool (F)
Measured Airflow
Design
Minimum Alrnow Requirement
Indicated
Volumotric
Exhaust Pickup Location
Airflow
(CFM
CFM 5000')
Flow
Flow
Pass
Fail
•Typo of Operation
(CFM)
(CFM 5000')
5000')
Master bath
50
2]50
intermittent ❑ 20 Continuous
67
73
❑
❑
Upper bath
50
050
intermittent ❑20 Continuous
77
84
✓❑
❑
lower bath
50
�/
50 Intermittent
20 Continuous
59
64
❑✓
❑
laundry
1 50
/1 50 intermittent 20 Continuous
53
58
✓❑
❑
50 Intermittent 20 Continuous
❑
❑
❑50
Intermittent 20 Continuous
❑
❑
'
❑So Intermittent 20 Continuous
❑
I ❑
Testing
notes
Kitchen exhaust NIA - hood does not vent to outside ❑ Testing tech (initials) NG
Oven fuel ❑Gas Electric Minimum airflow requirement (CFM 5000')+ operation Q100 Intermittent; Q 25 Continuous
Measured airflow
Flow Flow box Flo tube traverse Tool 0Interior grille Air temp 0
tool Passive now hood ❑Flow grid QExhaust duct through ADCF 1 098
locationw� termination rot OK) tool F
Powered flow hid Other (note below) 1 ( )
Indicated flow 102 CFM Volumetric flow 112 CFM 5000' ❑✓ Pass Fail
Testing
notes
Residential Mechanical Design Submittal V20140307 Page i
r
Testing tech (initials)
Testing roach and targets
/A: No complete AC system ❑ N/A: House completed November - April (instaning contractor responsible for testing in warm waatner)
❑TXV: Subcooling + SH check ❑ Non-TXV: Superheat ❑ OEM -specific: Approach ❑Other OEM -specific (documomwtlon required)
Temperatures Condenser Non-TXV: Return Target Taring Toach
(Fs entering air temp airwet-bulb temp supemeat subcooling approach
Subcooling
Discharge Condenser Liquid Actual ❑TXV Pass: Actual SC within
+!-
pressure saturation T F line❑F subcooling❑F 3 F of target SC, 2 F min
(PSI) (soda cnan); temp (condT -ip lime Tl ❑TXV Fail
Superheat
Suction Evaporator Suction Actuat ❑Non-TXV Pass: Actual SH
pressure saturation T❑F line❑F superheat❑F within +/. 5 F of target SH
(PSI) (seed rJun) temp (Butt lino T-avap T) ❑Non-TXV Fail
TXV checks: ❑ Pass: Field -installed TXV installed in accordance with OEM instructions ❑Caution: Actual SH outside mfgr range
Approach
Liquid line
❑F Actual approac) F ❑ Approach Pass: Actual approach within +l- t F of target approach
temp (L'' liner . Actual
ansar approach
❑ Approach Fail
Register air flows Testing tech (initials) NG
All registers are cut through finish materials and moving air 0 Pass ❑Fail
(Remainder of register air flow section under development, not yet being enforced)
Pressure balance
Testing tech (initials) NG
Room
(match names on plans. include
basement it there is a door)
Room -to -Core
Pressure Drop
Target Range (Pa)
Measured
Pressure
Drop (Pa)
Pass
Fall
STUDIO
-3to+3
NA
❑
❑
-3 to +3
❑
❑
-3 to +3
❑
I ❑
3 to +3
❑
❑
-3 to +3
❑
❑
3 to +3
❑
❑
-3 to +3
❑
❑
-3 to +3
❑
❑
-3 to +3
❑
❑
-3 to +3
❑
❑
Residential Mechanical Design Submittal
V20140307
Pago 4
e
0 0 0
ZCombustion safety testing N/A -- no natural -draft combustion appliances Testing tech (initials) NG
(Appliance Types table must be completed for every home)
Appliance types
Appliance
Combustion Type
N/A
Draft -hood
Natural-draft(Natural-draft)
Induced -draft
Power-
vent
Direct-
vent
Powered sealed-
combustion
Electric
Furnace #1
❑
❑
❑
❑
❑
❑
❑
Furnace #2
❑
❑
❑
❑
❑
❑
Cl
Boiler #1
❑
❑
❑
Cl
❑
❑
❑
Boiler #2
❑
❑
❑
❑
❑
❑
❑
Water heater #1
❑
❑
❑
❑
❑
❑
❑
Water heater #2
❑
❑
❑
❑
❑
❑
❑
Fireplace #1
❑
❑
❑
❑
❑
❑
❑
Fireplace #2
❑
. ❑
❑
❑
❑
❑
❑
Other:
❑
❑
❑
❑
❑
❑
❑
Worst -case depressurization performance
These doors are closed:
_ # of bath fans on
_ Vented range hood on
—Clothes dryer on
_ Air handler on
Other fans on: Other setup notes:
Outdoor temperature = F
CAZ pressure
BPI depressurization limit (Pa wrt outside)
Measured net CAZ depressurization (Pa con outside)
OK (less negative) I Caution (more negative)
Spillage
BPI maximum limit (seconds
Measured spillage duration (seconds
Pecs = 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
❑ OK ❑ Caulio:t ElOK ❑ Caution ❑ OK ❑ Caution
60
60
60
❑
Pass ❑ lFall
❑
jPass 10 1Fail
❑
1pass 1
❑ Fail
❑ Pass ❑ Fail ❑ Pass ❑ Fail El Pass El Fall
100
100
100
❑
11pass I ❑ Fail
❑
jPass 1 ❑
Fail
❑
IPass I ❑ lFail
❑
Caution
❑
Caution
❑
Caution
Residential Mechanical Design Submittal V20140307 Page 5
System
Controls Operating
Per Design Intent
Local exhaust (all fans)
❑
NIA
Q
Pass
❑
Fail
Whole -house ventilation
❑
NIA
0
Pass
❑
Fail
Sub -structural noor exhaust
NIA
❑
Pass
❑
Fail
Heating (all systems)
❑
NIA
❑J
Pass
-❑
Fail
Cooling (all systems)
❑
NIA
Q
Pass
❑
Fail
a
Technician 01 performing inspection and testing documented on this report (Approved Agency)
Testing tech (initials) NG
Testing Notes
1 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) Neal Girard
Tide Energy Rater
Company EnergyLogic, Inc. 1/20/17
Signature and Date 1�V Z-/
Technician 112 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
Company
Signature and Date
o-� %
HVAC Contractor (City of Fort Collins license holder)
1 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
Residential Mechanical Design Submittal V20140307 Page 6
Systems other than sub -structural floor exhaust
Testing tech (initials) NG
Code -minimum ventilation airflowr47 Design ventilation
7CFM 5000' ❑_Exhaust -only
I CFM 5000' airflow 47 System
(based on CFA and # of 8R) ❑Supply -only
type
• Balanced
to 56 CFM 5000,
47 ';
Target ventilation airflow range
(code -minimum) (12o%or design Row)
Measured Airflow
Air Temp
Indicated
Volumetric
Measurement Method
Tool Location
Through
ADCF
Flow
(CFM)
Flow
(CFM 5000')
Pass
Fail
Tool (F)
Total
❑ N/A ❑ Passive flow hood
z
El
exhaust
❑Flow box Q Pilot tube traverse
airflow
❑Flowcollar []Other (note below)
❑ N/A ❑ Passive flow hood
a
El
Total
supply
Flow box ❑J Pilot tube traverse
airflow
❑ Flow collar ❑ Other (note below)
Q Heating
Cooling
Continuous
fan
,..�__ _......�,. ,1.e..,., M cirri dated by air handler
fan, fan speed for
measurement
Balanced airflow in balanced systems
Average of measured 47 CFM Target flow range 40 54 CFM pass Fail
to 5000'
supply + exhaust flows 5000' (average +!- 75°h) --+
'Sting
notes Set to run 24 hours per day
Sub -structural floor exhaust
NIA -- no sub -structural floor exhaust system Testing tech (initials) NG
Design exhaust airflow (based onr--- CFM 5000' Target gn ow,+/- limits to CFM 5000'
approved design) (design +l- 15 h)
Measured airflow
_ Flow box Pilot tube traverse Air temp
Flow Tool through
❑ ADCF
tool ❑ Passive Oow hood ❑Flow collar location tool (F)
Powered flow hood Other (note bF==
elow)
Indicated flow CFM Volumetric flaw CFM 5000' Pass Fail
C.SM®R, BOOM
Testing notes
N/A❑�Noo outside conditioned space (ind multiple sys)
N Testing tech (initials):
Ddatasouace—cOmpanytlesl gdste): Neal Girard, EnergyLogic, Inc. 10/25/16
House conditioned floor area Air temp 70 ADCF��
(u.dude V1 irasemem) 2458 sf through tool (F)70 1.098
Test Parameter and Conditions
Maximum Allowed Duct
Normalized
(CFM25 5000' 1100 sf)
3
Lea Ka a
Absolute
(CFM25 5000')
measures uuct
Indicated
(CFM25)
uea�ayc
Volumetric
(CFM25 5000')
System 01
System ff2
Pass
❑
Fail
❑
Pass
❑
Fail
❑
Leakage Type
Total leakage
Timing
Rough -in
Air Handier
Excluded
Total leakage
Rough -in
Included
4
74
74
81
Q
❑
❑
❑
Total leakage
Complete
Included
4
El
❑
❑
❑
Residential Mechanical Design Submittal V20140307 Page 2
For multiple systems. attach one page per system
System #t F' 1 Which pans of house does it serve?
Installed equipment (Be Gear about which AC components are installed at time of testing) Testing tech (initials)=
St
Furnace or Boiler
AC or Heat Pump Condenser
AC or Heat Pump Coil
Manufacturer
D:5e-O
Model #
Basic fiberglass Electrostatic
Filter — — Thickness MERV
ran bd Type ,i( Baste pleated —Other.
High-offic pleated (inches) Z (optional)
OIR.
❑ Heating Cooling ❑ Cont. fan
High -stage for multi -stage equipment
speed tap:
.ter damper. /A
0Open (Heating)
OClosed (Cooling)
i
registers open
dampers open
SP1 L 1
DP Filler
(SP7 -SP2)
Cooling: Measured air flow through indoor coil
Design cooling airflow, C CFM 5000'
(high stage)
Measured airflow
141
SP2
Testing tech (initials)
(Same ioration
- SP4 ' �� Im NSOP.
TFSOP)
DP Coil
(SP}$Pd)
• SP3
DP Total ESP
(SP3-SP2) I
Testing tech (initials)t y—
Target airflow limits �1�
(design+I- 15%) r 1O �j ��r CFM 5000'
N/A — no AC installed
Air temp
Flow grid 14 () ❑ ❑ Flow Resistance
pi�
plate size 20 IhrOU h ADCF �. 8.,rrl NSOP 31 TFSOP Correction Factor � C�
tool F
Measured airflow, no I CFM Indicated airflow L/ CFM Volumetric airflow CFM ass
adjustment/correction ` Mes.,nod AF a FRCF / 7 2 h1diaWd AF . ADCF 5000' ❑ Fail
notes
Heating: Gas manifold pressure (high stage) Testing tech (initials)
Manifold pressure � Target manifold P Measured /f a
OEM spec Q 5000' /!/ limits (spec +/- 5%) IWC pressur�v /� I WC ail
Heating: Temperature rise Testing tech (initials) 2
OEM temperature rise limits F �--��
(high stage)
Supply ��t Return _ Temp (� Caution: within 1OF
Measured temps (F): airl ��/ I — ai — nsel / ( I ass ❑ Fail
I / I -mot L_, of top of range
Residential Mechanical Design Submittal V20140307 Page 3
W.
Testing tech (initials)
Testin pro ach and targets sNIA: No complete AC system ❑ N/A: House completed November - April tinstauing cantr- e r responsible for testsiy in warm weather)
❑TXV: Subcooling + SH check ❑ Non-TXV: Superheat ❑ OEM -specific: Approach []Other OEM -specific (dwumentation required)
Temperatures Condenser Non-TXV: Retu n Targel� Target Target
(F): entering air temp air wet -bulb tem superheat subcooling approach
Subcooling
Discharge❑
Condensers
saturation T
F
Liquid
line
❑
F
Actual
subcooling
F
❑TXV Pass: Actual SC within
3 For target SC, 2 F min
pressure
(tend T -aq �Ine T)
❑TXV Fail
(PSI)
[s000'cna,t>
temp
Superheat
Suction
saturation T F
❑ Evaporatorrations
Suction
line F
❑
Actual
superheat F
❑N thin +V Pass: Actual SH
within +I- 5 F of target SH
pressure
(PSI)
(soda than)
temp
(Suet lino T -evap T)
❑Nori-TXV Fail
TXV checks: ❑ Pass: Field -installed TXV installed in accordance with OEM instructions ❑Caution: Actual SH outside mfgr range
Approach
Liquid Iine�F Actual approach ❑ Approach Pass: Actual approach within +f- t F of target approach
F
lemp (Liq lino T'. condenser EAT) ❑ Approach Fail
Va ' e e g& G�J 0 mgmm l-M@@ __
Register air flows Testing tech (initials) NG
All registers are cut through finish materials and moving air IZI Pass Fail
(Remainder of register air now section under development, not yet being enforced)
Pressure balance
Testing tech (initials) NG
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
Fail
Mater
3 to +3
•2
E
❑
Back room
-3to+3
,2
❑✓
❑
3 to +3
❑
❑
3 to +3
❑
❑
-3 to +3
❑
❑
3 to +3
❑
❑
3to+3
❑
❑
-3 to +3
❑
❑
-3tor3
❑
❑
3 to +3
1 ❑
_❑
la
ZCombustion safety testing NIA -- no natural -draft combustion appliances Testing tech (initials) N G
(Appliance Types table must be completed for every home)
Appliance types
Appliance
Combustion T pe
N/A
Draft -hood
Natural-draR
Induced -draft
Natural -draft
Power-
vent
Direct-
vent
Powered sealed-
combustion
Electric
Furnace #1
❑
❑
❑
❑
❑
❑
❑
Furnace #2
❑
❑
❑
❑
❑
❑
❑
Boiler #1
❑
❑
❑
❑
❑
❑
❑
Boiler #2
❑
❑
❑
❑
❑
❑
❑
Water heater #1
❑
❑
❑
❑
❑
❑
❑
Water heater #2
❑
❑
❑
❑
❑
❑
❑
Fireplace #1
❑
❑
❑
❑
❑
❑
❑
Fireplace #2
❑
❑
❑
❑
❑
❑
❑
Other:
❑
. ❑
❑
❑
❑
❑
❑
Worst -case depressurization performance
House setup
These doors are closed:
[:Ot:h:
bath fanson
Vented range hood on
Clothesdryeron
Airhandler on fans on: Other setup notes:
Outdoor temperature = F
CAZ pressure
BPI depressurization limit
(Pa wrt outside)
Measured net CAZ depressurization
(Pa wit 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 wri CAZ
Measured
(Pa wn 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
El OK ❑ Caution ❑ OK ❑ Caution ❑ OK ❑ Caution
60
60
60
❑
IPass I❑
Fail
❑
Pass I ❑ IFail
I ❑
Pass
❑
Fail
❑ 1pass I ❑ Fail ❑ Pass ❑ IFail I ❑ Pass ❑ Fail
100
100
100
❑
Pass I ❑ Fail
❑
Pass ❑ Fail
❑
Pass ❑ Fail
❑
Caution
❑
Caution
❑
lCaution
Residential Mechanical Desian Submittal V20140307 Page 5
I9. System Controls
System
Controls Operatfn9
Per Design Intent
Local exhaust (all fans)
I NIA
Q
Pass
Fail
Whole -house ventilation
I WA
I
Pass
Fail
Sub -structural floor exhaust
Q
N/A
Q
Pass
Q
Fail
Heating (all systems)
WA I
Q
Pass
Q
Fail
Cooling (all systems)
NQ! /A
Pass
Fail
r
Technician 01 performing inspection and testing documented on this report (Approved Agency)
Testing tech (initials) NG
Testing Notes
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
Neal Girard
Energy Rater
Energ�yLogic, Inc. 1/20/17
Technician tit 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
Compani
Signature and Date
i5 6/ 5
i1r3
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 (pint
Title
Companl
Signature and Date
Residential Mechanical Design Submittal V20140307 Page 6
City of Fort Collins Residential Mechanical Systems Performance Report Updated 3l7/2014
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. ��- uur,;es --
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
Target
Measured value
Other
or limit
to compare with
Pass
Fall
Caution
data
target or limit
ADCF = Air Density Correction Factor, based on tool,
ADCF altitude (5000'), air temperature through tool
Volumetric flow (CFM 5000') = ADCF x Indicated flow (CFM)
Uo 5Lr°1 E l!:CI�g
Address 320 Urban Prairie Wy studio Date of 'Residential
Mechanical Systems
Builder Philgreen Construction Design Submittal"
information referenced
HVAC contractor Perfect Temp by testing technicians
As -built changes
meth design submi
Testing date(s) Duct testing 10/25/16 - Final Testing 1120/17
2. Local Exhaust (,Spot dentilation
Bath exhaust
Flo ✓ Flow box Pitot tube duct traverse Air temp 70
tool Passive flow hood 0 Other (note below) I through tool (F) I
Testing tech (initials) FNG
ADCF 098
Measured Airflow
Design
AiriflCFM
Minimum Airflow Requirement
Indicated
Volumetric
Fxhaust Pickup Location
(CFM 5000')
Flow
Flow
Pass
Fail
5000.)
+ Type of Operation
(CFM)
(CFM 5000')
BATH, WHOLE HOUSE VENT
50
[Z]se Intermittent ❑20 Continuous
67
73
Q
E_150 Intermittent 20 Continuous
❑
50 Intermittent 20 Continuous
50 Intermittent
20 Continuous
DID
I
DSO
Intermittent
20 Continuous1-1
Ej
�50
Intermittent
20 Continuous
❑
�50
Intermittent
❑ 20 Continuous
❑
❑
Testing
notes
Kitchen exhaust NIA • hood does not vent to outside Testing tech (initials) NG
Oven fuel ❑ Gas ✓ Electnc Minimum airflow requirement (CFM 5000') + operation 0100 Intermittent 25 Continuous
Measured airflow
Now t0000l
Flow box ✓ Pilot tube traverse
Passive flow hood ❑Flowgdd
l�tion0
I
❑Interior rille
Exhaust duct
I
Air temp
through F7O ADCF OQQ
Powered flow hood Other(note below)
(Exterior termrotionnet OK)
tool(F)
�J�J
Indicated flow
gg
CFM
Volumetdc now
108
CFM 5000' � Pass
Fail
Testing
notes
Residential Mechanical Design Submittal
V20140307
Page i
3 WhUORffl se Uentilat"on
Systems other than sub -structural floor exhaust Testing tech (initials) NG
Code -minimum ventilation airflow CFM 5000' Design ventilation CFM 5000'
(based on CFA and A of BR) 20 airflow 20 System Exhaust -only
hype Q Supply -only
20 to 24 CFM 5000'
Balanced
Target ventilation airflow range
(code-miMmum) (120%of design Bow)
Measured Airflow
Air Temp
Indicated
Volumetric
Measurement Method
Tool Location
Through
ADCF
Flow
Flow
Pass
Fail
Tool (F)
(CFM)
(CFM 5000')
Total
exhaust
❑ WA ❑ Passive now hood
OFlow box ❑Pilot tube traverse
at fan
70
1.098
77
84
Z
El
airflow
[]Row collar ❑ Other (note below)
Total
❑ N/A ❑ Passive flow hood
supply
❑ Flow box ❑ Pilot tube traverse
airflow
10 Flow collar Other (note below)
When supply airflow is circulated by air handler fan. fan speed for measurement
Heating Cooling Continuous fan
Balanced airflow in balanced systems _
Average of measured CFM Target flow range CFM
supply+ exhaust flows 5000' (average +/- 15%)l to �5000' Pass .Fail
_J
Tnote9 Set to run 15 min/hr.
Sub -structural floor exhaust ✓❑ NIA — no substructural floor exhaust system Testing tech (initials) NG
Design exhaust airflow (based onCFM 5000' Target airflow limits I to CFM 5000'
approved design) (design +/- 15%)
Measured airflow,
Lj Flow box U Pilot tube traverse Air tem
P
Flow Passive now hood Flow collar Tool through ADCF
tool location
Powered flow hood Other (note below) tool (F)
Indicated flow CFM Volumetric flow CFM 5000' Pass Fail
Testing
notes
Ob o 'o 0 0 0@9R L@9!EO@
N/A 0 No ductwork Testing notes
No ductwork outside conditioned space (incl mwti; to sys)
N Testing tech (initials):
°datass�e�—company te(name,
ting date): Neal Girard, EnergyLogic, Inc. 10/25/16
House conditioned floor are516 throug Air temp
70 ADCF
(Ixlude bo meat) (F)�
1.098
Residential Mechanical Design Submittal
V20140307
Page 2
9b e 0 o e o %
0
For multiple systems, attach one page per system
System #FT] Which parts of house does it serve? s %� p t 0 ff ��
Installed equipment (Be clear about which AC components are installed at time of testing) Testing tech (initials)
Furnace or/B1 oiler
AC or Heat Pump Condenser
AC or Heat Pump Coil
Manufacturer
60 SC (f r- 6 O
Model #
Basic fiberglass Electrostatic
Filter — — 7 Thickness❑ MERV❑
brand Type -4 Basic pleated _ Other:
— High-eRc pleated (inches) (optional)
Static pressures
Setup
Speed: ❑ Heating Cooling ❑ Cont. fan
❑ High -stage for muld-stage equipment
Blower speed tap:
Humidifier damper. NIA
Open (Heating)
Closed (Cooling)
_ All r isters open
Zone dampers open
SPi ® 5d I
AP Filler \J -
(SPt -SP2)
SP2 I
Testing tech (initials)
(same location
for NSOP.
TFSOP)
AP Coil
• SP3
AP Total ESP Z I (SP35P2)
Cooling: Measured air flow through indoor coil F�N/A - no AC installed Testing tech (inilials)T
Design Cooling airflo CFM 5000' Target airflow limits /J �T too CFM 5000,
+/- 15%) LS/ CJ
(high stage)
(design i-,
Measured airflow
Flow grid
PI size
_ 14
❑ 20
Air to 9p❑
throw h /^Q
tool (F) vv
ADCF / r NSOP ? \ TFSOP Correction factor
❑ Flow Resistance
c�
Measured airflow, no
/�
CJ
CFM
Indicated airflow Y CFM Volumetric airflow �� CFM ass
v 5000
adjustmentloorreetion
Measured AF a FRCF hWrcated AF a ADCF Fait
Heating: Gas manifold pressure (h gh stage) Testing tech (initials)=
Manifold pressure
1�i�
C Tar et manifold P IWC Measured CPass
P 9 /t
OEM spec @ 5000' limits (spec +/_ 5°�) �i/ - pressure � ❑Fail
Heating: Temperature rise Testing tech (initials)=
OEM temperature nee limits 9O to F
(high stage) i
SupplyReturn Temp - PCaution: within 10F
Measured temps (F): air l y "� I - air = nse ass ❑Fail ❑ of top of range
Residential Mechanical Design Submittal
V20140307
Page 3