HomeMy WebLinkAbout432 Bannock St - Disclosures/Mechanical - 04/12/2013City of Fort Collins
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Residential Mechanical Systems Performance Testing Submittal Form
This form Is a record of testing targets and results, with Pass/Fall 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
HVAC
Measured value to
Target or limit
copare with mlimit target 01
Pass
Fail
Caution
Oflrer data
Testing dates) 4/12/2013
Hh exhaust
ow box collar
_Flaw
Alrtlow measurement metlux
_ Passive flow hood _ Pitot tube traverse
Temperature of air tluoug66 Indicated flow to Volumetric flow multipl r
F 1.098
measurement soar, air temperature
Measured Exhaust Airflow
Operation
MinimumIndicated
Airflow
Volumetric Flow
Exhaust Pickup Location
Intermittent or
Requirement
Flow
(CFM 5,000')
PassFail
Continuous
(CFM)
(CFM 5000')
masterBath
h —
50 cfm
7
73.566
_❑1
U.L.Bath
fl _Comm
50 cfm
65
71.37
—❑
powder
it _Contin
50 cfm
69
75.76
_oI
Intermit Contin
❑
_❑1
Intermit Collin
❑—
-�I
Intermit Conlin
Intermit _Contin
❑
_r❑---It��
Intermit Contin
❑
�-'J
Kitchen exhaust
Oven ft4=
Exhaust airflow
operatior=Intcmmittem Comktuous
Minimum exhaust airflow raquirementCFM 5000'
red airflow
Airflow measurement method — Flow box _Flow collar
_ Passive flow hood _ Pitot tube traverse
Temperature of air through Indicated flow to Volumetric flow multiplier
measurement tool F @ 5000', air temperature
Indicated flow =ADFIIII
Volumetric fkrwCFM SOW 11 Pass 14 Fail
Testing notes (tan speed, maskini
How out of range... .
Mechanical Systems Performance Twang Submittal FormV20120321 � t of 6
other than sub -structural floor exhaust
t exhaust airflow requirement 49 CFM soon'
Indicated to
Measured Airflow
Volumetric
Airflow Measurement Measurement Location +
Flow
Indicated Flow
VolumetricDesign
(CFM 5000') Method Air Temperature IF)
Multiplier
(CFM)
Flow
(CFM SM,)
Pass/Fail
box
Total exhaust airflow
— Passive flow hood
Flow collar
_
Picot tube traverse
Powder bath
1.098
69
75.76
Flow collar
Pitot bibs traverse
Total supply airflow
Flow box
Passive flow hood
systems in which supply airflow is ciradatedothe air handler fan, fan speed for measu _ Heat _ Cooling _ Continuous fan
airflow In balanced systems
Average of measured su CFM SOWand exhaust flow
❑ ;Pass
Sub -structural floor exhaust
Design airflow
(Measured airflow
CFM sow
Target flow ran CFM 5000'
(average +I. 15%)
�0 Fail
Afrllow, measurement meth —Flow boz _Flow collar
_ PessWe flow hood _ Picot tube traverse rr��rr
Temperature of air through F Indicated flow to Volumetric flow multiplier
measurement tool ® S000', air temperaboej
Indicated flow �CFM Volumetric SOWE Ell
flow CFM SOW Fail
Maximum Allowed Duct Leakage
Measured Duct Leakage
Test Parameter and Conditions
Normalized Leakage
(CFM25 / 100 at)
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
❑
❑
otalleakage
Complete
Included
12
❑
❑
Leakage to
plele
Included
8
147
26
128.55
❑
Mechanical Systems Performance Testing SubmhtaYFo V20120M 2 of 6
Filter type
1-1 area urolator f312
Static pressures (OPTIONAL)
Mode: _ Nesting
_ Cooling
Continuous Fan
Fan speed tap
Humidifier bypass _ Open _Closed
All registers open
—Zone dampers open
P=-
AP filter =
Type/ etylDis sable Th 1" Imes MERV(optiorml)=
P=+
t1P AC coil =
1
P=+
AP Total ESP =
Cooling: Measured air flow throw n Indoor coil using flow grid
Design cooling drrAm921 CFM Soar Target airflow limis (design ,/-15%) 783 to 1059 CFM s000'
Measured airflow
Cooling tan speed tap Med-High
Temperature of air throug F
measurement too 66
NSOP 32) Pa TFSOP 37.2
Measured airflow, no adjustments or correction C
Flow grid plates 14 _ 20
Indicated flow to Volumetric flow SOW,mu ' r
0 So, air tempo rawre1.098
ps Flow Reslsumce Correction Facto DG700
:FM Adjusted (indjeated) alrflo 915
Volutnebic flo 1004 CFM S000' C ----IPassC❑ Fail
Heating: Gas manifold pressure
OEM "e"ffo'dspecification , ;r. manifold pressure limits (spec 4-5%) 3 to 3 lwC
oo3.5 IWC Target f�I
Measiaed manifold pressu 3.3 IWC I U IPass ` f '„ .:.. Fail
Heating: Temperature rise
OEM temperature rise linfty �F
Measured temperature rise
Return air 66 F Supply air
1115
115 F
Temp rise Pass Fail ❑
Caution: Temp rise within
10 F of top of range
Mechanical Systems Performance Testing Submaldfo V20120321 3 of 6
(This section under development, not yet being enforced)
Supply air flows (This section underdevelopment, not yet being enforced)
Pressure balance
17, Pressure difference omit, roomdo-core -3 to +3 Jai
Room
Measured pressure
Pass
Fail
drop (Pa)
Master bedroom
+1.5
=71Y-90
Bedroom 2 (middle)
+0.9
4
Bedroom 3 (front)
+1.2—
❑
❑��
❑
j .'Pw
k L
C
❑
❑F.aT.
Mechanical Systems Pedomiance Testing Submitt9fo V20120321 4 of 6
Outdoor temperature QF
Worst -case depressurization testing
House setup
0 of bath fans on These doors are closed:
Vented range hood on
Clothes dryer on
Air handler on
fans
appliances
APPlianb
TyP
Locatio
c pressure
BPI depressurization limit Pa art outside
Measured net CAZ depressurvationPa 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
Ps wrt CAZ
Measured
Pa art 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
Draft -hood
Induced -draft
_ Draft -hood
Induced -draft
_ Draft -hood
Induced -draft
100
100
100
❑
❑ etl
❑
Pass
Elia
❑
❑ I
El
❑
Caution
❑ on
Mechanical Systems Performanoe Testing SubmlttaWo V20120321 5 of 6
System controls operating per design intent
Approved Agency
INameOxin"
In"o
Comparw
(Signature wW Date
HVAC contractor
IName Wnt►
ITMe
Company
(Signature and Dam
Fall
�-qvfttpm
Local exhaust
tryt _�❑;l:<__''�.
Whole -house ventilation
b]ri—
p�❑�,�
Sub -structural floor exhaust
Heating
��❑❑9
:t�1.❑f`:�-.
Cooling
I❑°i�.-....;
(technician performing inspection ad testing documented on this form
Paul Higman
Energy Rater
Thermal Concepts/ Allied
04/12/2013
Thomas
Northern Colorado
04/12/201
Mechanical Systems Performance 7estirmg SubmittsWo V20120321 6 of 6