HomeMy WebLinkAbout5851 Dripping Rock Ln - Disclosures/Mechanical - 05/17/2014City of Fort Collins Residential Mechanical Systems Performance Report
This forth is a record of testing targets and results, with Pass/Fail outcomes. For information on measurement tools and testing techniques, seethe
"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
Target
Measured value
Other
to compare with
Pass
Fall
aution
or limit
target or limit
data
Address5p s�'i O, f4— L
Builde
HVAC contractor J(�
As -built changes vs
mech design submittal
Testing date(s)
Local2. (Spot
Bath exhaust
ADCF= Air Density Correction Factor, based on tool,
ADCF attitude (5000'), air temperature throu gh tool
Volumetric flow CFM 5000' = ADCF x Indicated flow CFM
6 �O Date of"Residential
Mechanical Systems
Design Submittal
information referenced
by testing technician
Testing tech (initials5iii
FAir tmp
ray arse
(note
ADCF
tool_ Passive flow hood _ Other below))through t oe IF (�—
Design
Minimum Airflow Requirement
Indicated
Volumetric
Exhaust Pickup Location
Airflow
(CFM 5000')
Flow
Flow
Pass
Fail
(CFM
+ Type of Operation
(CFM)
(CFM 5000')
501ntannittent _ 20Continuous
70❑
501rtermittent _ 20Continuous
(
❑
SOlntennittent 20Continuous
G,3
1�
❑
_ 501ntermittent 20 Continuous
❑
❑
SOlnter ittent 20Continuous
Ll
❑
SOlntermittent 20Continuous
❑
❑
501ntermittent 20Continuous
L-1 If
❑
Testing
notes
Kitchen exhaust N/A - hood does not vent to outside Testing tech (initials
Oven fuel Gaslectric Minimum airflow requirement (CFM 5000') + operation _ 1001ntermittent _ 2b Continuous
Measured airflow IIIIf�1IIII 11II�IIII1
Flo -Flow box - FlowPilot tube id traverse Tool _Interior grille Air terngPl--1 t---a
Passive flow hood _Flow rid Exhaust duct throu h ADCF
too —Powered flow hood Other (note below) lotatio �erior terminatlon not OK) tool (F)
Indicated flo FMVolumetdc flowCFM 00'Pass ❑ ❑Fall
Testing
notes
Residential Mechanical Design Submitta1V20140101 Page 1
Systems other than sub -structural floor exhaust Testing tech (initials
Code -minimum ventilation airflo r/ Design ventilation
O CFM 5000' CFM 5000' hauston
(based on CFA and # of BR) airflo System N
type
_ SuPPN onN
Target ventilation airflow rang S toCFM 5000' �D _ Balanced
coM-minimum 120%or desl nflo
Air Temp
Measurement Method Tool Location I Through
Indicated Volumetric
ADCf I Flow I Pass I Fail
Total
NIA Passive flow hood
exhaust
_ _
box _ Pitot tube traverse
�
C.
C�
❑
airflow
Flow collar Other (note below)
f
/
Total
NIA Passive flow hood
supply
_ _
_ Flow box _ Pitot tube traverse
El
El
_ Fbw collar _ Other (note below)
When supply airflow Is circulated by air handler fan, fan speed for measurement I Heating Cooling Continuous fan
Balanced airflow in balanced systems
Average of measuretl CFM Target flow range CFM
supply + exhaust flow 5000' (average +l-15%) to 5000, ❑PassFail ❑
Sub -structural floor exhaust s
I1I�t11 NIA -- no sub -structural floor exhaust system Testing tech (initial
Design exhaust airflow (based on L.--iCFM 5000' Target airflow limi to CFM 5000'
approved design) (design +1. 15 % )
Measured airflow
Flo
Flow box
Passive flow hood
_ Pkot tube traverse
Flow collar
Tool
Air tent P
throug
ADCF
toot
oo
_
_ Powered flow hood
_
_ Other (note below)
locatio
tool (F)
Indicated flo FMVolumetric flowCFM 00'PassFail ❑ ❑
Heating4. + Cooling Duct Leakage
NIA — No ductwork Testing notes
ork outside conditioned space (incl multiple sy )
Duct leakage
data source
_ Testing tech (initials):
_ Energy rater (name,
company, testing date):
House conditioned floor area
(include full baeeme (
Air temp ADCF�
sf through tool (F
Maximum Allowed Duct Leaka a
Measured Duct Leakage
Test Param
r and Conditions
NormalizedAbsolu
(CFM25 5000' 1100 sf)
(CFM25 5000')
Indicated
(CFM25)(CF
Volumetric
25 5000')
System #1
stem #2
Leakage Type
TimingAb
Handler
Pass
ail
I Pass
ail
Total leakage
Rough-inE
ccluded
4
❑
El
El
Total leakage
Rough -in
Included
6
❑❑
u
❑
L
❑
Total leakage
Completelt
cluded
12
El
Li
❑
eaka Lgers
Complete
Included
8
❑❑
L.1
❑
u
❑
Residential Mechanical Design SubmittalV20140101 Page 2
For multiple systems, attach one page per system
System #Eiarta of house does it serve?
Installed equipment (Be clear about which AC components are installed attime oftesting) Testing tech (initials�
Furnace or BoilerAC or Heat P
umpCondenserAC or Heat Pump Coil
Manufacturer
iv—
i�"
Model #
,fit c 1
A 5',,H C�f�'O � %� ^07
/Aro's
415,e4
`75� e2-
7 ^1�p1
727. G i> O 6140
St
Aeaic fiberglass - Electrostatic
Fihe /� Thickness MERV
bran l.�Wtr1G Type _Basic h-effi pletedated
_Other: (inches)E (optional
Hi h-effic leafed
--Wy,Fd1
(Same location
for NSOP,
TFSOP)
7f
Cooling: Measured air flow through indoor coil ❑ NIA -- no AC installed Testing tech (initials
Design cooling airflo
S(-J ✓
O t J
CFM
5000' Target airflow l5%
O q�
CFM 5000'
(high stage
(design +l- 75%)
Measured airflow
Flow gri
20
Alr t 9P ��
th�o
�a'%
ADCF D 1 NSOP SOP
7 Z Flow Resistance
Correction Facto
plate size
IF)
Measured airflow, nor'�I1I
I'1,CFM
Indicated airflo 314 CFM
�
Volumetric airflo 9eJ� CFM
5000,
6Qkass
adjustment1correctio�
Measured AF x I
indicated AF x AD •(/'�
[]Fail
Heating: Gas manifold pressure (high stage( Testing tech (initia2S�S�-
Manifold pressur IWC Target manifold P 3 ? `Z_ IWCIWCMeasured ', s
OEM spec @ 5000' limits (spec +I- 5%) .? T pressure []Fail
Heating: Temperature rise Testing tech(initials
OEM temperature rise limits l� F
(high stage O
Sup Return �7 Temp / Caution: within 10F
Measured temps (F): ai R - ai ! Z, = ri "t sFail ❑ ❑ of top of range
Residential Mechanical Design SubmittalV20140101 Page 3
Testing tech (initials)
Testing approach and targets
El NIA: No complete AC systemN/A: Hoe-eempleted November - April (installing contractor responsible for testing in warm weather)
❑TXV: Subcooling + SH checkNonLLXV: SuperheatOEM-specificlipproachOther OEM -specific ❑ (documentation required)
Temperatures Condenser Non-TXV: Return = Target= Targe� Target
IF): entering air temp air wet -bulb temp superhea subcoolin approach
Subcooling
Discharge
9
Condenser
Li ui Actual
q
t❑ TXV Pass: Actual SC within +I-
pressur
saturation FFF
lin subcoolin
3 F of target SC, 2 F min
(PSI)
(5000'chart
temp (Good 7-Ilq one
❑TXV Fag
Superheat
Suction vaporat 1-1
rSuctionActual i❑Non-TXV Pass: Actual SH
aturatio TlinesuperIt tFFF ❑ within +l- 5 F of target SH
(PSI) temp (Suet line T -evap ❑Non-TXV Fail
TXV checks: LE]Pass: Field -installed TXV installed in accordance with OEM instructions ❑Caution: Actual SH outside mfgr range
Approach
Liquid line F Actual approac F tEApproach Pass: Actual approach within +I. 1 F of target approach
temp(Liq line T - condenser EA ( l❑Approeeh Fail
Register air flows
All registers are cut through finish materials and moving air PF'mFail ❑
(Remainder of register air flow section under development, not yet being enforced)
Pressure balance
Testing tech (initials)[1
Testing tech (initials
Room
(match names on plans, include
basement if there is a door)
Room-to-le
Pressure
Target RanDrop
Measured
Pressure
(Pa)
Pass
ail
N5?72
-3 to
❑
n 3 Y"sri
-3 to
f
❑3
to
❑
❑-3
to
PJ
❑
3 to +3
P�
❑
3 to +3
P�
❑
-3 to +3
P,
❑
3 to +3
LI
❑
-3 to +3
❑
❑
Residential Mechanical Design SubmittalV20140101 Page 4
o tion safety testing WA -- no natural -draft combustion appliances
(Appliance Types table must be completed for every home)
Appliance types
Testing tech (initials 1
Appliance
NIA
Draft -hood
Induced -draft
Power-
Direct-
Powered sealed -
Furnace #1
El
El
El
❑
❑
ry
❑
Fumace#2
❑
❑
❑
❑
❑
❑
❑
Boiler #1
❑
❑
❑
❑
❑
❑
[j
Boiler #2
❑
❑
❑
❑
❑
11
❑
Water heater #1
it
❑
❑
❑
El2—
❑
Water heater #2
❑
E'J
0IJ D
0 Li❑
❑
❑
Fireplace #1
i❑❑�
❑
❑
19--
❑
Fireplace #2
❑
❑❑
u
OU 0
LJ
El❑
Ell
❑
Other:
of
❑
El
El
❑
U
Worst -case depressurization performance
doors are closed:
# of bath fans on
Vented range hood on
Clothes dryer on
Air handler on
r fans on:Other setup n
Outdoor temperature Eplianc4F
CAZ pressure
BPI depressurization limit (Pa wrt outside)
Measured net CAZ depressurization IN wrt outside)
OK (less negative) I Caution (more negative)
Spillage
BPI maximum limit
Measured spillage duration
Pass = duration not exceeding limit
Draft pressure
BPI limit
Measured
Pass = pressure more negative than limit
CO concentration in undiluted flue gas
BPI maximum limit
Measured CO
Pass = CO level not exceeding limit
Caution = CO level 25 to 100 ppm
❑ OK I ❑ Caution K❑ ❑ Caution ❑ OK ❑ Caution
(Pa wrt CAZ)
(Pa wrt CAZ)
❑ 1P,ss I ❑ FaiIP
s❑ I ❑ jFaiIP4ss0
I I ❑ Fail
Residential Mechanical Design SubmittalV20140101 Page 5
System
Controls Operating
Per Desi n Intent
Local exhaust (all fans)
❑
NIA
Pass
❑
Fall
Whole -house ventilation
❑
WA
Pass
❑
Fail
Sub -structural Floor exhaust
WA
❑
Pass
❑
Fail
Heating (all systems)
_gt
❑
NIA
jRZ
Pass
❑
Fail
Cooling (all systems)
ElNIA
ass
❑
Fail
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 (prink)
rdh
Company
Signature and Date
GJ S2fv �eS r
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.
Na
Signature
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 SubmittalV20140101 Page 6