HomeMy WebLinkAbout215 Urban Prairie St - Disclosures/Mechanical - 06/09/20166 ," . z,0 Ow
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. ��— uurues
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
to compare with
Pass
Fail
Caution
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 215 Urban Prairie Way Date of "Residential
Mechanical Systems
Builder Philgreen Construction Design Submittal"
g information referenced
HVAC contractor Perfect Temp by testing technicians
As -built changes
mech design submi
Testing date(s) Duct Test - 3/24/16 Mechanical - 6/9/16
Local1. oe e
Bath exhaust Testing tech (initials) ,BS
Flow H
Flow box Pitot tube duct traverse Air tempADCFtoolPassive flow hood Other (note below) through tool (F)
Measured Airflow
Design
Minimum Airflow Requirement
Indicated
Volumetric
Exhaust Pickup Location
(CFM
(CFM
(CFM 5000')
Flow
Flow
Pass
Fail
5000.)
+ Type of Operation
(CFM)
(CFM 5000')
Master
50
[Z]50 Intermittent ❑ 20 Continuous
71
78IZI❑
Jack and Jill bath
50
050
Intermittent
El20
Continuous
52
57
✓
Laundry
50
050 Intermittent 020
Continuous
65
71
❑✓
❑
50 Intermittent
20 Continuous
❑
❑
50 Intermittent
20 Continuous
❑
❑50 Intermittent ❑ 20 Continuous
1:150
Intermittent
❑
20 Continuous
Testing
notes
Kitchen exhaust N/A - hood does not vent to outside ❑ Testing tech (initials) BS
Oven fuel ❑ Gas Electric Minimum airflow requirement (CFM 5000') + operation Q✓ 100 Intermittent: ❑ 25 Continuous
Measured airflow
FlowEPowered
Pitot tube traverse Tool 0 Interior grille Air temp
ow hood []Flow grid ❑ Exhaust duct through %� ADCF
toolow hood Other (note below) location (Exterior termination not OK) tool (F)
Indicated flow 96 CFM Volumetric flow 105 CFM 5000' Pass Fail
Testing
notes
Residential Mechanical Design Submittal V20140307 Pagel
Refrigerant•
Testing tech (initials)
Testing approach and targets
Q✓ NIA: No complete AC system ❑ N/A: House completed November - April (installing contractor responsible for testing in warm weather)
❑TXV: Subcooling + SH check ❑ Non-TXV: Superheat OEM -specific: Approach Other OEM -specific (documentation required)
Temperatures Condenser Non TXV: Return
temp Target Target Target
(F): entering air temp air wet -bulb temp superheat -. subcooling approach
Subcooling
Discharge
pressure
❑
Condenser
saturation T❑F
Liquid
ling❑F
Actual
subcolineT) F
❑TXV Pass: Actual SC within
3 F of target SC, 2 F min
PSI
(5000' chart)
tem
(cond T - liq line T)
El TXV Fail
Superheat
Suction
pressure
Evaporator
saturation T
F
Suction
line F
Actual
superheat F
[]Non-TXV Pass: Actual SH
within +/- 5 F of target SH
temp❑
(Suct line T - evap T)
❑ Non-TXV Fail
(PSI)
(5000' chart)
TXV checks: ;❑ Pass: Field -installed TXV installed in accordance with OEM instructions Caution: Actual SH outside mfgr range
Approach
Liquid line Actual Actual approach�F
temp (Liq line T - condenser FA❑Approach Pass: Actual approach within +/- 1 F of target approach
T) []Approach Fail
Testing
I. k••
Register air flows Testing tech (initials) BS
All registers are cut through finish materials and moving air m Pass Fail
(Remainder of register air flow section under development, not yet being enforced)
Pressure balance
Testing tech (initials) BS
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
Fail
Studio (no bedroom)
-3to+3
❑
❑
-3 to +3' .:
❑
❑
-3 to +3
❑
r
-3 to #3 . . '
❑
❑
73 to +3 '
❑
❑
-3 to +3 .::
❑
❑
-3 to +3 :'
❑
❑
Residential Mechanical Design Submittal
V20140307
Page 4
.e
Combustion
Combustion safety testing NIA -- no natural -draft combustion appliances Testing tech (initials) B.S
(Appliance Types table must be completed for every home)
Appliance types
Appliance
Combustion Type
NIA
Draft -hood
Natural -draft
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 cl
_ # of bath fans on
_ Vented range hood on,
_ Clothes dryer on
Air handler on
Other fans on:
Other setup notes:
Outdoor temperature F
Appliana
Locatior
`CAZ pressure
BPI depressurization limit
I
(Pa wrt outside)
Measured net CAZ depressurization
(Pa wrt outside)
OK (less negative) Caution (more negative)
'- :Spillage
BPI maximum limit
(seconds;
Measured spillage duration
(seconds:
i 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
Testing
❑ OK ❑ Caution ❑ OK ❑ Caution ❑ OK ❑ 1 Caution
❑ Pass I ❑. IFail
❑ Pass ❑' Fail
❑ I Pass I ❑ I Fail
❑ Pass ❑ . Fail 1 Pass I ❑. Fail ❑ Pass ❑ Fail
❑
Pass I ❑
Fail
❑
Pass I..❑. Fail
❑
I Pass I ❑ Fail
❑
Caution
❑
Caution
❑
lCaution
Residential Mechanical Design Submittal
V20140307
Page 5
Gontrols
Testing tech (initials) BS
System
Controls Operating
Per Design Intent
Local exhaust (all fans)
❑
N/A
❑✓
Pass
❑
Fail
Whole -house ventilation
❑
N/A
❑✓
Pass
!,❑
Fail
Sub -structural floor exhaust
❑✓
N/A
❑
Pass
❑
Fail
Heating (all systems)
❑
N/A
❑✓
Pass
❑
Fail
Cooling (all systems)
❑
N/A
Q
Pass
❑ ;Fail
Testing Notes
e
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 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) Brad SC)llti)
Title Energy Rater
Company EnergyLogic, Inc 6/9/16
'. Signature and Date
Technician #2 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) Chris Butts
Title President
Signature and Date
H_VAC 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 Page 6
Systems other than sub -structural floor exhaust Testing tech (initials) BS
Code -minimum ventilation airflow CFM 5000' Design ventilation CFM 5000' ❑
(based on CFA and # of BR) 50::] airflow, 50 Exhaust -only
System Supply -only
Balanced
Target ventilation airflow range to CFM 5000' type ❑✓
(code -minimum) (120% of design flow)
Measured Airflow
Air Temp
Indicated
Volumetric
Measurement Method
Tool Location
Through
ADCF
Flow
Flow
Pass
Fail
Tool (F)
(CFM)
(CFM 5000')
Total
❑ N/A ❑ Passive flow hood
exhaust
❑ Flow box ❑ Pitot tube traverse
❑
airflow
Flow collar ❑ Other (note below)
Total
❑ N/A ❑ Passive flow hood
❑ ❑ Flow box Pitot tube traverse
El
airflow 111Flow
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 to CFM Pass Fail
supply + exhaust flows $$ 5000' (average +/- 15%) 42.5 57.5 ` 5000' Z.
❑
notes) 88 CFM set to run 12 hrs per day meeting ASHRAE 62.2 requirement
Sub -structural floor exhaust ✓❑ N/A -- no sub -structural floor exhaust system Testing tech (initials) gS
Design exhaust airflow (based anCFM 5000' Target airflow limits to CFM 5000'
approved design) (design +/- 15%)
Measured airflow
!Flow —Flow box Pitot tube traverse Tool Air temp
1
tool ❑
❑ Passive flow hood Flow collar location through ADCF
Powered flow hood Other (note below) tool (F) .
Indicated flow CFM Volumetric flow CFM 5000Pass ❑ Fail
I
I � -
Testing
notes
• 001411,0 ® • -
N/A Q No ductwork Testing notes
❑ No ductwork outside conditioned space (incl multiple Sys)
B Testing tech (initials):
Duct leakage _Energy rater (name,
data source company, testing date): grad Smith, E n e rg y L o g i c, Inc 3/24/216
House conditioned floor area 1960 sf Air temp 39 ADCF 1.067
(include full basement) through tool (F)
Test Parameter and Conditions
Maximum Allowed Duct Leakage
Normalized Absolute
(CFM25 5000' / 100 sf) (CFM25 5000')
Measured Duct Leakage
Indicated Volumetric
(CFM25) (CFM25 5000')
System #1
System #2
Leakage Type
Timing
Air Handler
Pass
Fail
Pass
Fail
Total leakage
Total leakage
Rough -in
Rough -in
Excluded
Included
3
4
7$
71
76
�✓
Total leakage
Complete
Included 1
4
❑
.
Residential Mechanical Design Submittal V20140307 Page 2
Heating5. • • e e u ipment
For multiple systems, attach one page per system
System #F] Which parts of house does it serve? main house
Installed equipment (Be clear about which AC components are installed at time of testing) Testing tech (initials)
Furnace or Boiler AC or Heat Pump Condenser AC or Heat Pump Coil
Manufacturer Geo Comfort
Model # GCt024d
Filter _ Basic fiberglass _Electrostatic Thickness MERV
brand Type _ Basic pleated _ Other. ^ F
High-effic pleated (inches) 1 (optional)�
Static pressures Testing tech (initials) cb
U High -stage for multi -stage equipment
Blower speed tap:
Humidifier damper: ❑✓ N/A
DOpen (Heating)
f] Closed (Cooling)
❑✓ All registers open
0 Zone dampers open
SP1 2
DP Filter
(SP1 -SP2) u
Cooling: Measured air flow through indoor coil
Design cooling airflow 588 CFM 5000'
(high stage)
(Same location
- SP4 22 for NSOP,
TFSOP)
AP Coil
(SP3-SP4)
• SP3
AP Total ESP 42
(SP3-SP2)
SP2
N/A -- no AC installed Testing tech (initials) cb
Target airflow limits
(design +/- 15%) .500 to. 676.. CFM 5000'
Measured airflow
Air temp Q
i Flow grid 14 Flow Resistance
through 70, ADCF pgg NSOP `35 TFSOP� .U� PI ate size ✓ 20 tool (F) Correction Factor
Measured airflow, no CFM Indicated airflow R CFM Volumetric airflow CFM 2✓ Pass
adjustment/correction 515 Measured AF x FRCF 45 v Indicated AF x ADCF 503 5000' Fail
Testing
Heating: Gas manifold pressure (high stage) Testing tech (initials) cb
Manifold pressure Target manifold P . Measured Pass
OEMs Spec 5000' I1C.� IWC limit (S ec+/-5% to IWC IWC
p @ (p ) pressure Fail
�;
Heating: Temperature rise Testing tech (initials) cb
OEM temperature rise limits to F
(high stage) 20 60
Supply Return Temp Caution: within 10F
Measured temps (F): O2 — 7O = 32 ❑✓ Pass Q Fail
air air rise E _ _ I of top of range
Residential Mechanical Design Submittal V20140307 Page 3
e •
Testing tech (initials)
Testing approach and targets
.'MN/A: No Complete AC system ❑' N/A: House completed November - April (installing contractor responsible for testing in warm weather)
.. ❑TXV: Subcooling + SH check ❑ Non-TXV: Superheat ❑ OEM -specific: Approach ❑ Other OEM -specific (documentation required)
Temperatures Condenser Non TXV: Return Target Target Target
(F): entering air temp air wet -bulb temp superheat subcooling approach
Subcooling
Discharge
pre
❑
Condenser
saturation T❑F
Liquid
line❑F
Actual
subcooling❑F
❑TXV Pass: Actual SC within
3 F of target SC, 2 F min
(surPSI )
(condT- liglineT)
❑TXV Fail
(5009chart)
temp
Superheat
Suction
pressure
Evaporator
saturation T❑F
Suction
line�F
Actual
superheat❑F
❑Non-TXV Pass: Actual SH
within +/- 5 F of target SH
temp
(SuctlineT- evapT)
❑Non-TXV Fail
(PSI)
(5000'chart)
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
temp (Liq line T - condenser EAT) ❑Approach Pass: Actual approach within +/- 1 F of target approach
[]Approach Fail
Room ' •
Register air flows Testing tech (initials) BS
All registers are cut through finish materials and moving air Pass ❑ Fail
(Remainder of register air flow section under development, not yet being enforced)
Pressure balance
Testing tech (initials) BS
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
Fail
Master Bedroom
-3to+3
.6
0
❑
Front Bedroom
-3 to
.6
0
❑
Back bedroom
-3 to +s
.7
0
❑
-3 to +3
❑
❑
1:1
El
-3 to +3
❑
❑
=3 to +3
❑
I ❑
-3 to -Q ,.
❑
.❑ .
-3 to +3 :
❑
❑
-3 to +3.
❑
❑
Residential Mechanical Design Submittal V20140307 Page 4
a Gom,busticjn,
ZCombustion safety.testing N/A -- no natural -draft combustion appliances Testing tech (initials) BS
(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
Electric
Furnace #1
❑ .
❑
❑
❑
❑
❑
❑
Furnace #2
❑
❑
❑
❑
❑
❑
❑
Boiler #1
❑
❑
❑
❑
❑
❑
❑
Boiler #2
❑ .
❑
❑
❑
❑
❑
❑
Water heater #1
El
El
❑
El
El
El❑
Water heater #2
El
El
El
El-
El
El❑
Fireplace #1
El
El
El
El
El
El❑
Fireplace #2
❑
❑
❑
❑
❑
❑
❑
Other:
❑
❑
❑
❑
❑
❑
❑
Worst -case depressurization performance
House setup
These doors are closed:
_ # of bath fans on
_ Vented range hood on
_ Clothes dryer on
_ Air handler on
Other fans on:. Other setup notes:
Tested appliances
Outdoor temperature F Appliance
Location
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
Testing
notes
❑ OK I ❑ I Caution ❑ JOK I ❑ .. Caution ❑ OK I ❑ I Caution
60
60 ::: ' ::::' ...
: , ....
..,. 60 ., ....
❑
Pass " ❑ Fail
❑
I Pass I ❑ Fail
❑
I Pass ❑: Fail
❑ Pass ❑ . Fail ❑ Pass ❑ Fail ❑ IPass ❑ Fail
100 . .:.:.
100:
100
❑
1pass Fail
❑
Pass ❑ Fail
❑
Pass :�°❑ Fail
❑
Caution
' ❑
Caution
❑
Caution
Residential Mechanical Design Submittal V20140307 Page 5
Controls,
Testing tech (initials) FBS
System
Controls Operating
Per Design Intent
Loral exhaust (all fans)
❑
NIA
❑✓
Pass
❑
Fail
Whole -house ventilation
❑
N/A
Q
Pass
❑
Fail
Sub -structural floor exhaust
❑✓
N/A
❑
Pass
❑
Fail
Heating (all systems)
❑
N/A
❑✓
Pass
❑
Fail
Cooling (all systems)
❑
N/A
❑✓
Pass
❑
Fail
Signatures
Testing Notes
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 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) Brad Smith
Title Energy Rater
Company EnergyLogic, Inc 6/9/16
Signature and Date
Technician #2 performing inspection and testing documented on this report (Approved Agency)
r-�
I certify that the tests referenced above, in sections bearing my initials, were performed in accordance with protocols specified by the
i City of Fort Collins Building Services Department, and that the reported results are accurate to the best of my knowledge.
Name(
i
i
i
Com
Signature and
L _.J
onrint) Chris Butts
Title President
pany Perfect Temp
Date C6i -
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.
Nai
Signature
Residential Mechanical Design Submittal V20140307 Page 6
b-a-zoc0
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 F®r't Collins
this form may be periodically updated; check the Building Services web site for the current version. ��- utilities
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
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)
House
Address 215 Urban Prairie Way Studio Date of"Residential
Mechanical Systems
Builder Philgreen Construction Design Submittal"
g information referenced
HVAC contractor, Perfect Temp by testing technicians
As -built changes
mech design submi
Testing date(s) Duct Test - 3/24/16 Mechanical - 6/9/16
• e•Ventilation)
Bath exhaust Testing tech (initials) BS
Flow ✓ Flow box Lj Pilot tube duct traverse Air temp 79 ADCF 1.109
tool Passive flow hood M Other (note below) through tool (F)
Measured Airflow
Design
Airflow
Minimum Airflow Requirement
Indicated
Volumetric
Exhaust Pickup Location
(CFM
(CFM 5000')
Flow
Flow
Pass
Fail
5000')
+ Type of Operation
(CFM)
(CFM 5000')
Bath
50
[Z]50 Intermittent 0'20 Continuous
60
66
❑✓
❑
❑50
Intermittent
❑26Continuous
❑
❑
❑50 Intermittent ❑20 Continuous
❑
❑
50 Intermittent
20 Continuous
❑
❑
50.Intermittent
20 Continuous
❑
❑
❑50 Intermittent ❑ 20 Continuous
❑
❑
❑50
Intermittent
❑
20 Continuous
❑
❑
Testing
notes
Kitchen exhaust N/A - hood does not vent to outside ❑ Testing tech (initials) BS
Oven fuel ❑ Gas W1Electric Minimum airflow requirement (CFM 5000') + operation ❑✓ 100 Intermittent Q 25 Continuous
Measured airflow
✓ =flowhooid
Pitot tube traverse I] Interior grille Air temp
Flow Flow grid Tool 0Exhaust duct through % ADCFtool Other (note below) location (Exterior termination not OK) tool (F) I �J
Indicated flow 90 CFM Volumetric flow 100 CFM 5000' Pass ❑ Fail
Testing
notes
Residential Mechanical Design Submittal
V20140307
Page 1
3. ftole-HouseVentitation
Systems other than sub -structural floor exhaust Testing tech (initials) gS
Code -minimum ventilation airflow Design ventilation
(based on CFA and # of BR) 2 CFM 5000' airflow 20 CFM 5000' System ❑_ Exhaust -only
type❑ Supply -only
to CFM 5000' Balanced
Target ventilation airflow range 21 25
(code -minimum) (120 % of design flow)
Measured Airflow
Air Temp
Indicated
Volumetric
Measurement Method
Tool Location
Through
ADCF
Flow
Flow
Pass
Fail
Tool (F)
(CFM)
(CFM 5000')
Total
exhaust
❑ N/A ❑ Passive flow hood
❑ Flow box ❑ Pitot tube traverse
Bath fan
79
1.109
60
66
0✓
El
airflow
❑ Flow collar ❑ 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
Q Heating Cooling ❑ Continuous fan
Balanced airflow in balanced systems
Average of measured CFM Target flow range _ CFM
supply +exhaust flows 5000' (average +/- 15%) to 5000' ❑Pass E Fail
Testing
notes 66 CFM operating for 7.5 hrs per day meeting ASHRAE 62.2 requirement
Sub -structural floor exhaust ❑✓ N/A -- no sub -structural floor exhaust system Testing tech (initials) BS
Design exhaust airflow (based on Target airflow limits to CFM 5000'
approved design) (design 5000' (design +/-15%) .
Measured airflow
_ ow U Flow box Pitot tube traverse Air temp
tlool [3. Passive flow hood ❑ Flow collar Tool through ADCF
Powered flow hood Other (note below) location tool (F)
Indicated flow CFM Volumetric flow CFM 5000' ❑. Pass ❑ Fail
Testing
notes
• +Cooling. i e -
N/A 0 No ductwork Testing notes
No. ductwork outside conditioned space (incl multiple sys)
B r
Testing tech (initials):
Duct leakage Energy rater (name, grad Smith EnergyLogic Inc 3/24/216data source company, testing date): > >
House conditioned floor area sf Air temp ADCF
(include full basement) 4 96 through tool (F) 39 E06E]
Maximum Allowed Duct Leakage
Measured Duct Leakage
System #1
System #2
Test Parameter and Conditions
Normalized
(CFM25 5000' / 100 sf)
Absolute
(CFM25 5000')
Indicated
(CFM25)
Volumetric
(CFM25 5000')
Leakage Type
Timing
I Air Handler
Pass
Fail
Pass
Fail
Total leakage
Rough -in
Excluded
3
❑
❑
❑
❑
Total leakage
Rough -in
Included
4
.40
38
40
❑✓
❑
❑
❑
Total leakage
Complete
Included
4
❑
❑
❑
❑
Residential Mechanical Design Submittal V20140307 Page 2
e,t Cooling • •
For multiple systems, attach one page per system
System #Fil Which parts of house does it serve? Studio
Installed equipment
(Be clear about which AC components are installed at time of testing) Testing tech (initials)
Furnace or Boiler
AC or Heat Pump Condenser
AC or Heat Pump Coil
Manufacturer
Bosch
Model #
BP009
Basic fiberglass — Electrostatic
Filter — Thickness MERV
brand Type _ Basic pleated _ Other: (inches) (optional)
_High-effic pleated
[81
[,I
Static pressures
Speed: ❑Heating Q Cooling ❑ Cont. fan
❑ High -stage for multi -stage equipment
Blower speed tap:
Humidifier damper: 0 N/A
Open (Heating)
Closed (Cooling)
All registers open
Zone dampers open
sP1 ,11
AP Filter
(SP1 - SP2)
Cooling: Measured air flow through indoor coil
is
Design cooling airflow
�CFM 5000'
(high stage) 305
Measured airflow
Flow grid ❑_ 14 Air temp
PI ate size ❑ 20 through 70
tool (F)
Measured airflow, no
�CFM
adjustment/correction 27�
Testing
notes
Testing tech (initials) cb
(Same location
- SP4 09 for NSOP,
TFSOP)
OP Coil
(SP3-SP4)
SP3
AP Total ESP 21
(SP3-SP2)
SP2
❑ N/A -- no AC installed Testing tech (initials) cb
Target airflow limits
(design +/- 15%) 260 to 350, CFM 5000'
ADCF
pgg
NSOP 3'I
TFSOP❑ Flow Resistance .89 Correction Factor
Indicated airflow
Measured AF x FRCF
^/�CFM
`� 0
Volumetric airflow
Indicated AF x ADCF
n/CFM
26 3 ]5000'
❑✓ Pass
❑ Fall
Heating: Gas manifold pressure (high stage) Testing tech (initials)
Manifold pressure Target manifold P Measured ❑ Pass
OEM spec @ 5000' n a IWC limits (spec +/- 5%) to • IWC pressure IWC
❑Fail
;
Heating: Temperature rise Testing tech (initials)
OEM temperature rise limits 20_ to 60 F
(high stage) :
Measured temps (F)- Supply _ Return
28
_ Temp �/ Pass Fail Caution: within 10F
p () air 98 air 70 — rise of top of range
Residential Mechanical Design Submittal
V20140307
Page 3