HomeMy WebLinkAbout375 Osiander St - Disclosures/Mechanical - 05/16/2014City of Fort Collins Residential Mechanical Systems Performance Report
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
Ta et
Measured value
O[her �
to compare with
Pass
Fatl
uhon
.:
or 1 mitl
data
�`;
target or limits
ADCF= Air Density Correction Factor, based on tool,
ADCF altitude (5000% air temperature throu gh tool
Volumetric flow (CFM 50001 = ADCF x Indicated flow CFM
Addr 3?_5 5�. may:;Date of 'Residential
Mechanical Systems
Builde _ Design Submittal
�pFQinformation referenced
HVAC contractor-_fSIC` '�(� by testing technician
As -built changes
mech design submil
Testing date(s)
Bath exhaust Testing tech (initials
l \Flo A�jow box - :::Phot tube ducttraverse Air temp / ADCF
too _ Passive flow hood`.'Olher (note below through tool (F t�
1 Design Minimum Airflow Requirement In Volumetric
Exhaust Pickup Location I (C M
+ Type Iof (CFM FailOpera[ionI (CFM� I (CFM 5000') I Pass I I
g501ntwmatent -: 20ContinuousG�
-�.�
SOlnternitteht'y - 20 Conhriyous
y
,❑'
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❑ .
Testing
notes
Kitchen exhaust WA - hood does not vent to outside Testing tech (initials"
Oven fuel -�Elestric Minimum airflow requirement(CFM 5000') + operation h001ntermittent �_T25Cohtitiuous
W,„Measured airflow
:FlOjDh
Dbox
Pitot_tubetraverse
f
Passive flow hood::
Flow gnd.:
too
Powered flow.hood
:Other (note below)
-
Indicated flo 4iizMVoI
a fc
owCFM 000'Pass
-; Testing
notes
Toot(E)aefiortermination
edor rills Air temp
9 p
locatfoxhaustductthroughADCFnot OIq tool (F)
Fail
Aerns other than sub -structural floor exhaust
Testing tech (initials
Code -minimum ventilation airflo CFM Design ventilation CFM 5000' 5000'
HI
(based on CFA and # of BR)
airf
System
t
anc
Bal ed
Target ventilation airflow m
ccdaminimuA(1 20% of desllgnilow ,
F_ Measurga
Airfl-w ::I
Air Temp
I Indicated
I Volumetric
I
Measurement Method
Tool Location
Through
ADCF
Row
Row
Pass
Fall
Total
WA: Passiveflow,hood.�
j
gexhaust
1�"w box PitothibetraVerte,
70
5N
airflow
Flow collar. other (note below):..*��.-.:
Total
Passive flow If
.......
W,
supply
Flow box.:- P itot tube traverse
airflow,_-Flowbollar.
Other(note Olk
When supply airflow is circulated by air handler fan, fan speed for measurement
Balanced airflow in balanced s tents
j CFM Target flow i
Average of measu:red range CFM
average +/- 5000
supply + exhaust fl 5000
Sub -structural floor exhaust no sub -structural floor exhaust system
Design exhaust airflow (based on CFM 5000'
approved design) ;Measured airflow
EjPassFaII '13
Testing tech (initials=
Target airflow
lintM(design +/-15IN 1W01,211- CFM 5 000
Flow uox-
Pilot tubetraverse:
Too[
.......
R0
passive flow. hood.. -
as
Flow collar... . .....
t
7
Powered flow hood
i
': Other (note below
acetic,
[O
---------- Indicated flow
61�..etrwCFM� OOo'PassFail
Testing
not
Air temp
throng
ADCF
=WIC
0
OW
R TP�
A"
, '
VO
WA 0
66tw rk Testing
uctwork outside conditioned space: Onel MUH
Duct leakage
data source
House conditioned floor area
Air temp ADCF
(Include full bmem=s,
through tool (F
Maximum Allowed Duct
Leakaae
Measured Duct
Leaka a
System #1 4s
tern #2
Test Parameter and Conditions
NormalizedAbsold
(CFM25 5000' 100 sf)
a
(CFM25 5000)
Indicated
(CFM25)(CR
Volumetric
125 50001
—
Leakage Type
TimingAir
Handler
Pass
II
Pass
ail
P
El
Total leakage
Rough -in E
(cluded
❑a
Total leakage
Rough -in
Included
-1
I R
AQ:❑
O
WE]
Total leakage
Complete) r
claded
it
Leakage
E❑I
to outdoors
Corn piLte
Included
quip t
For multiple systems, attach one page per system
System # 91irts of house does it serve?
Installed equipment
Manufacturer
Model #
Filte
b
Static
(Be clear about which AC components are installed at time of testing) Testing tech
nop or BnilarAC or Hear PLmo CondenserAC or Heat PumD Coll I
SPI
LP Filter
(SPI -SP2)
Cooling: Measured air flow through indoor coil
Design cooling airfl FM 5000'
(high st
--v —Measured airflow
MERV
(Optional
El
Testing tech (initialmn vlErA�
F�
(Same location
for NSOP.
TFSOP)
El WA — no AC installed Testing tech (initials
Target airflow limit CFM 5000,
J
(design +/- 15%)1' ";RRt
I
Flow gri HAirtemp Flow Resistance
througi ADCF NSOPIFSOP.:!.:l Correction Facto
Plate size 20..::�!
, .1 tool IF, CFM ass
Measured Measured airfic nOO r-
4 Indicated airflo Volumetric airflo
CFM CFM
MmsuredAFxF IndlCatedAFXADC 50=' �[]Fall
adjustmentfcorrilo
Heating: Gas manifold pressure (high stage)
Testing tech (initials
IM4.1-1,
Manifold pressure Target manifold P
0 li its (spec +/- 5%)
OEM spec 0 m
'gF3-�k'o ""'65
-�4
Measured
lWclWC
pressure
rr' Fail
Heating:lWC
Heating: Temperature rise
Testing tech (initials
OEM temperature rise limits
D,toF
(high
suppi
temps fl:
ial
Return,
IN
Temp
WN PM
kPassFail 1 11 lo caution: within
1OF
...Measured
at
ail
risf
of top of range
Testing tech (initials=
Testing approach and targets
ON/A: No complete AC systemN/A: H%* —Completed November - April
(installing Contractor responsible for testing In warm weather)
TXV: Subcooling + SH checkNon@(V: SuperheatOEM-specMapproachOther OEM-specif ICE]
(documentation required)
Temperatures Condenser Non-TXV: Return
Target �§Yrf
Target
Target
fl: entering air temp air wet -bulb temp
superheat
subcoolin
approach
Subcooling
0 %'1
�4�
Disc Cle
pre=
Condenser
FF
Uqui
I
is
subc=im
EITXV Pass: Actual SC within
3 F of target SC, 2 F min
I
(PSI)
PC I
(cow T - liq line
'QTXV Fail
Superheat
Non-TXV Pass: Actual SH
Suctionrat rSuctionActual
FFF aturatid Tfinesuperheat within +/- 5 F of target SH
: , , : :� (5000'charl temp QNon-TXV Fall
,)n' El El (Butt line T - evap T El
T)(Vchecks: 1313ass: Field4nstalled TXV installed in accordance with OEM instructions FOCaution: Actual SH outside mfgr range
Approach
Liquid lin F Actual approac'JEh F []Approach Pass: Actual approach within +/- I F of target approach
temp
serEA (LJq line "r-conden IE]Approach Fall
Tf
Register air flows Testing tech (lnftials�:
All registers are cut through f Inish material 'APossFail
X,
a and moving air
(Remainder of register air flow section under development, not yet being enforced)
Pressure balance
Testing tech (initials ��
Q
Room
Room -to -Core
Measured
(match names on plans, include
Pressure Drop
Pressure
Pass i
ail
basement if there is a door)
Target Range (Pa)
Drop (Pa)
ig
w
rn
rearma
4
_E3
0'+
3t '-3-_
+ 1.3
. ....
:E1
0,-,:
q
7
. .... W--'NMq
. -3 to .
❑
3
..7
ET
,
El
E]g
♦t64
U
Uk'
Wkg .3 R
ustion safety testing WA — no natural -draft combustion appliances Testing tech (initials
',,;,=,lance Types table must be completed for every home)
Appliance I NIA I Draft -hood I Induced -draft I Power- I Direct- I Powered sealed-
#1
Boiler#2
heater #2
ace #1
Worst -case depressurization performance
Outdoor temperature ga]F
c pressure
BPI depressurization limit (Pa wrtout de)
Measured net CAZ depressurization (Pa wnoutside)
OK (less negative) I Caution (more negative)
BPI maximum limit (seconds
Measured spillage duration (seconds
Pass = duration not exceeding limit
M
`0]01<
I
=CautioW
WIT
I
rRE111
Caution
��i EI]OK
r 0�1
Caution
f:E]
IPassPa4---,,
Fail
1_0_]Fail�
s
_x
Fail
m: pressure
0
X, �K.
R ".`-2,"M"M ;1, �
BPI limit
(Pa wrt CAZ)
MUM"
"ME
MEMO!@
"'
Measured
(Pa wrt CAZ)
��[]�]Pass
=jFaiIP9siE1:j
IREIg'IFail
Pass = pressure more negative than limit
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