HomeMy WebLinkAbout415 NOQUET CT - DISCLOSURES - 6/6/2013 (3)� t 50D
City of Fort Collins
Residential Mechanical Systems Performance Testing Submittal Form
7 TUN 13 9:218M
This form is a record of testing targets and results, with Pass/Fail 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
Bath exhaust
Measured value to
Target or limit
oompare with target o
Pass
Fail
Caution
Other data
Airflow measurement metho] Flow box = Flow collar I
1 Passive flow hood Pilot tube traverse
Temperature of air throug67 Indicated How to Volumetric flow multipli r
measurement too F Q 5000'. air temperature l A98
Measured Exhaust Airflow
Operation
Minimum
Indicated
Exhaust Pickup Location
Intermittent or
Airflow
Flow
volumetric Flow
PassFail
Continuous
Requirement
(CFM)
(CFM 5,000')
(CFM 5000')
masterBath
mit _Conlin
50 cfm
65
71.37
—pl
U.LBath
YJV nerm it _Conlin
50 cfm
67
74.3
,.
❑
Pwdr
Yintermilt _Conlin
50 cfm
57
63.2
_❑I
Intermit Conlin
-
❑
_❑
Intermit Conlin
❑
Intermit Conlin
❑
01
Intermit _ Conlin
❑
_❑
Intermit Contin
❑
—J
Kitchen exhaust
8
Oven fuel — lectrfc
Exhaust airflow
Operaa'O _ Intermittent _ Continuous
Measured airflow
Minimum exhaust ow requirementCFM sow
Q
Airflow measurement method — Flow box _Flow collar
Passive How hood Pilot tube traverse 111�II
Temperature of air through Indicated flow to Volumetric flow multiplier 1---.—�
measurement tool F @ 5000', air temperature
Indicated flow Volumetric flowCFM 5000' Fb Pau Fail
. J
Testing notes (fan speed, maskini
flow out of range,...
Mechanical Systeme Performance Tesling Submittal FonnV20120321
,g6z: �,1-7 1 ��,
l Of
Systems other than sub -structural floor exhaust
Minimum exhaust airflow requirementJ�j
as
FFM S000'
Indicated to
Measured Airflow
Volumetric
Design Airflow
Measurement
Measurement Location +
Flow
Volumetric
Indicated Flow
(CFM S000')
Method
Air Temperature (F)
Multiplier
Flow
(CFM)
Pass/Fail
(CFM 5000')
_ Flow box
Total exhaust airflow
— Passive flow hood
_Eh
_ Flow collar
Pilot tube traverse
Pwdr
1.098
57
62.5
_ Flow collar
— Pilot tube traverse
Total supply airflow
Flow box
Passive flow hood
For systems in which supply airflow is circulatedolhe air handler fan, fan speed for measuremen —Heat Cooling Continuous fan
Balanced airflow in balanced systems
Average of measured supp CFYtII 5000'Target flow ran to CFM 5000'
1 and exhaust fl (average
❑ Pass Fail
Sub -structural floor exhaust
Design airflow f ICFM 5000'
i
Measured airflow
Airflow measurement meth —Flow box _Flow collar
_ Passive flow hood — Pilot tube traverse 1I1''�iI1
Temperature of air through F Indicated now to Volumetdc flow multiplier 1�
measurement tool @ 5000', air temperature
Q , ❑pass Fail
Indicated flow CFM Volumetric flow CFM 5000'
Temperature of air througif
measurement too 67
House conditioned floor area 1569 Isf
Indicated flow to Volumetric flow multiplier 1.098
0 5000', air temperature
Maximum Allowed Duct Leakage Measured Duct Leakage
Test Parameter and Conditions
Normalized Leakage
(CFM25 / 100 sf)
Absolute
Leakage
(CFM25)
Indicated Flow
(CFM25)
Volumetric
Flow
(CFM25 5000')
Measurement
Timing
Air Handler
Pass/Fail
Total leakage
Rough -in
Excluded
4
❑
❑
Total leakage
Rough -in
Included
6
❑
❑
Total leakage
Complete
Included
12
❑
❑
Leakage to outdoorsetmPlete
Included
8
125
138
141.7
❑
Mechanical Systems Performance Testing SubmitbYfo V20120321 2 of 6
Filter type I�
Bran koch Type istyl Dis osable Thlck 1" inches MERV(optional)1--t
Static pressures (OPTIONAL)
.Mode:— Heating
kCooling
I
Continuous Fan
' Fan speed bap
r Humidifier bypass _ Open _Closed
I registers open
AC coil =
— Zone dampers open
i
rr
■
P=+ •L�
P =
--
AP filter =
P=- tLIZ
hP Total ESP = - 6Z
Cooling: Measured air flow throw h indoor coil usirg flow grid
?Design cooling of 772 ' CFM S=r Target airflow limit; (design +1- 15%) 656 to 888 CFM 5000,
Measured airflow,
Cooling fan speed tap Med-High
Temperature of air throug
measurement too 67 F
NSOP 3g Pa TFSOP 37.7 Pa
Measured airflow, no adjustments or correction IQCFM
Volumetric ftovg01 CFM 5000' Pass
Flow grid plates 14 _ 20
Indicated flow to Vo metric flow muffipf r
Q 5000', air temperature 1.09g
Flow Resistance Correction Factor=0
Adjusted (indicated) airf ix�FM
Fall
Heating: Gas manifold pressure
OEM manffold pressu
specification, 5000 3.5 IWC Target manifold pressure limits (spec +/- 5%) to ?j.q IWC
Measured manifold pressu 3•3 WC Pass Fail
Heating: Temperature rise
I
OEM temperature rise lim" (� to/D F
(Measured temperature rise
Retum air 67 F Supply air 1110 F
Temp rise 43 F .. 1Pass ❑❑ Fall ❑
Mechanical Systems Performance Tasting 5ubmittdfo
V20120321
Caution: Temp rise within
10 F of top of range
3016
(This section under development, not yet being enforced)
(�. Roam Air Ffow and Pressure Balance
t
Supply air flows (This section under development, not yet being enforced)
Pressure balance
Pressure difference limit, room -to -core
i
3 to +3 Pa
Room
Measured pressure
drop (Pa)
Pass
Fail
Master Bed room
+1.1
°
Bedroom 2
+1.0
-
O
Bedroom 3 front
+0.9--
°
.❑
o
- ❑
o
Mechanical Systems Performance Testing Submindfo V20120321 4 of 6
Outdoor temperaturessu
Worstcdepressurization depressurzation testing
.House setup
5 of bath tans on
Vented range hood on
Clothes dryer on
Air handler on
fans on
Tested appliances
Applianc
Typ
Locatio
:pressure
BPI depressurization limit Pa wrt outside
Measured net CAZ depressurizationPa wrt outside
OK (less negative) I Caution (more negative)
BPI maximum limit seconds
'Measured spillage duration seconds
Pass = duration not exceeding limit
It pressure
BPI limit Pa wrt CAZ
Measured Pa wrt CAZ
Pass = pressure more negative than limit
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
These doors are closed:
_ Draft -hood
Induced -draft
_ Draft -hood
Induced -draft
_ Draft -hood
Induced -draft
�'�1.es:i•��
��ILJ�
����
100
100
❑ asa
r® all
❑
Pass
g 11
❑ ss
,u all
IfEllb100
utlon
1,R]
Caution
M® ution
Mechanical Systems Performance Testing Submftb3Wo V20120321 5 of 6
System controls operating per design intent
Approved Agency
Name (print)
Title
,Company
,Signature and Date
HVAC contractor
Name (print)
Title
Company
I
Signature and Date
SvstPm
Pass
Fail
Local exhaust
(�
_ ❑
Whole -house ventilation
®—
❑
Sub -structural floor exhaust 0 Its,
t
❑
Heating
tw
❑
Cooling
Vim+
❑
Paul Higman
Energy Rater
Thermal Concepts/ Allied
06/07/2013
)rt Collins license holder
Thomas Poppi
Journeyman
Northern Colorado Ai
06/07/2013
Mechanical Syslems Performance Testing Submineifo V20120321 6 of 6