HomeMy WebLinkAboutCOMCHECK - 03-00017 - District 7 Health Department - AdditionEnvelope Compliance Report
2000 IECC
COMcheck-EZ Software Version 2.4 Release 1
Data filename: CAProgram FileslChecklCOMcheck-EZID-? REX.eck
SectiQu
J
.Project Name:
Desi gner/C on tractor
Document Author:
Di
.stri.et Seven Health Office Addition
Rexburg, Idaho
Alderson,, Karst & Mitro RA
379 A Streeet
Idaho Falls, ID. 834f11
Kurt A.. Karst
Alderson, Karst & Mitro
Section 2.* General Information
Building Location:,
Climate Zone:
Heating Degree Days abase 65 degrees F):
Cooling Degree Days abase 65 degrees F).-
Building
):Building Use Method of Compliance:
Building Tme.
Office
Project Description (cheek one):
New Construction Addition
St. Anthony, Idaho
16
8693
143
Whole Building Method
Floor Area
6240
.Jr -Alteration — Unconditioned Shell (File Affidavit)
Section 3: Requirements Checklist
Air Leakage, Component Certification, an Vapor Retard
All joints and penetrations are caulked, gasketed,
weather-stripped, or otherwise sewed
Windows, doors, and skylights certified
as meeting leakage requirements
Component R -values & U -factors labeled as certified
Vapor retarder instatIed
er Requirements
Inspection
Date
Approved
(YIN)
P
Climate -S ecific Re uirem
T"
Com nt Name/Descrt,
GrOs S CiaV�' Cont. Proposedt1Qn Area R -Value R -Value U -Factor
Roof 1: A,11 -mood Joist/Rafter/Truss
Exterior Wall 1: Wood Frame, Any Spacing
Window 1: Metal Frame, Doubly Pane with Low -E
Clear, shgc 0.64, pf 0.40
Door I.- Solid
Door 2: Glass', Char, shgc x.59
Basement Wall I : Sol id Concrete or Masonry c= $"
Furring: None, mall Ht 3.5, Depth. B.G. 3.Z
Budget
U -Factor
6240 30.0 O.Q 0.035 0.047
2740 19.0 0.0 0.068 0.067
259 --- --- 0.610 0. 520
21 --- -- 0.700 0.112
63 --- -- 0.920 0.520
1200 ---
6.0 0.136 0.091
(a) _B t U -factors are used for so fiwareBasel in e cal cul ati on s ONLY and are not code requ } rem ent s.
Envelope PASSES: Design I5% better than code
Section 4: Compliance Statement
The proposed envelope design represented in this document is consistent with the building plans, specifications
andother calculations submitted with this permit application. The proposed envelope system has been designed to
meet the 2000 IECC requirements in CON4,check-EZ Version 2.4 Release 1.
Principal Envelope Designer -Name Signature Date
lii��t�� Com�li��cc CcrCi�Ica�Q
COMcheck-EZ Sofhvwe Version 2.4 Release 1
Data filename,, COLDocuments and Settin�;slPayne EngineennglMy Docunient§\DRAWYN�Slhohbs middle
school,�D2?31Rexburg Dist. 7_cck
Section L. Project Information
Project Na
DesignerlCuntractar:
Document Author:
Section 29. general Infarma��on
District 7 Health Office Addition
Rexburg, Idaho
Payme Engineering Inc.
Todd Payne, PE
Budding Location-.
Climate Zone:
Heating Degree Days (base 65 degrees F):
Cooling Degree Days abase 55 degrees F).-
Building
):Building Use Method of Compliance.,
Building T
Office
Project Descfipfion (check orae):
New Construction Addi#ion
Idaho Falls,, Idaho
IS
?9I8
306
Whole Building Method
Floor Area
6240
Alteration � Unconditioned Shell (File Affidavit)
Section 3: Requirements Checklist
inspection
Date
Controls, Switching, and Wiring
Independent controls for each space (switch/occupancy sensor)
F,xceptions: Security lighting, building lobby/retad storefmall
Master switch at entry to hotel/motel guest roam
Two switches, dimmer, or occupancy sensor in each space providing
uniform iflunfination pattern
Exceptions. -
only one lumina -ire in space,
An occupant -sensing duce controls the area;
The area is a corridor, storage, restroom, or lobby
Photocell/astronomical blue switch on exteriar lights
Exceptions:
Large cavi erect ams requifing lighting dming da-vlight hours
Tandem wired ane -lamp and three -lamp ballasted luminaires
Exceptions:
Electronic high -frequency ballasted luminaires not on same switch
t ri g Lighting
Approved
(YIN)
Initial
Lighting APPlic�tioIl Worksheet
2001 IECC
COMcheck-EZ Soffivare Version 2_4 Release I
Section 166, Allowed Lighting Power Calculation
Bw*ldin
B C
Total
Floor Allowed
Aria Watts
Type (f12)_ (watts/fU I
Section 2: Actual Lighting dower Calculation
A B
Fixture Fix-Wre Description l
ED Lamp Description I Watta,&ePer Upp/Ball.ast
F1 Surface Wray 1 48" T8 32W ! Electronic
HY3 Surface Fluorescent 148" T8 32W 1 Electronic
eXist. Surface Fluorescent / 4S° T 12 ES 3 2 W 1 Magnetic
exist. Surface Fluorescent 148" T 12 ES 3 2 1 Magnetic
exist. Surface Fluorescent 148" Tit ES 32W J Magnetic
exist. Recessed Can I Tripe 4 -pin SSW 1 Magnetic
exist. Under cab. light 1 Other / Magnetic
6240 13
Allowed
Waits
B x C)
8112
Total Allowed Watts = 8112
C
Lamps/
flxlurc
D
# of
Fixture
FixWresWatt.
3
16
95
1520
2
18
61
1098
3
22
114
250$
4
14
i44
144{l
2
15
72
1080
1
14
22
308
2
5
15
75
Section 3: Compliance calculation
If the Total Allowed Maus minus the Total ,actual Watts is greater than or
Lighting PASSES: Design 1°lo better than code
Total Actual Watts. = 8029
equal to zero, the building complies.
Total Allowed Watts = 8112
Tatar Actual Watts = 8029
Project Compliance = 83
Total. actual watts must be fess than or equal to dotal allowed watt
8112
Actual. Watts
Exterior Lighting
Ty-pe(s) of exterior lIghting sources:
tIH0f1'1CCflI
Exceptions:
110, Boom
Complies Y./N)
I I )
YES
Specialized signal, directional, and marker lighting; lighting hgIdightng exterior features of histonc buildings;
advertising signage; safety o� security lighting; low-Nrolt age landscape lighting.
Section 4: Comphance Statement
The proposed lighting design represented in tis document is consistent with the building pians, specifications and
other calculations submitted with this permit application. The proposed lighting system has been designed to meet
the 2001 IECC requirements in COMcheck-EZ Version 2.4 Release 1.
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Mechanical Compliance Report
2000 IECC
C4Mcheck-EZ Software Version �
Section 1w. Project Information
Project Information: DisWct Seven Health Deartment
Owner/Agent Infonn,ation: Alderson, Karst & Mtro'Architects P.A_
Document Author Information: Nielson Engicefing, Inc.
Gordon Nielson
Section 2: General Information
Building Location:
Climate Zane:
Hating Degree Days (base 65 degrees F):
Cooling Degree Days (base 65 degrees F):
Building Use Method of Compliance:
St. Anthony, Idaho
16
593
1.43
Whole Bu. ilding Method
Project Desciiption (check one):
_New Construction `- Addition i Alteration_ Unconclitioned She11 File Affidavit)
Section 3: Mechanical Systems List
QuantitySystem T e& Descn*vtion
3 HVAC System 1: Heating: Duct Furnace, Gas 1 Cooling: Split System, Capacity <65 kBtu/h. Air -
Cooled Condenser 1 Single Zone
Section 4 -es Requirements Checklist
generic Requirements: Must be met by all systems to which the requirement is applicable
[ � 1. Load calculations per 1997 A5FIRAE Fundamentals
l ] 2. Plant equipment and system capacity no greater than needed to meet loads
- Exception., Standby equipment automatically ofd when primary system is operating
Exceptian: Multiple units controlled to sequence operation as a fmction of load
] 3. Minimum nne temperature control device per system
[ ] 4. Minimum one humidity control device per installed humidificatianldehumidificat�on system
[) 5. Thermostatic controls mush have 5 deg. F deadband
- Exception: Thermostats requiring manual changeover between heating and coaling
� ] 6. Automatic Controls; Setback to SS deg, F (heat) and $5 deg. F (coal); 7 -day clock, 2 -hour occupant
oVerride, XO -hour backup
-Exception: Continuously operating pones
Exception., 2 kW demand or less, submit calculations
[ ] 7. Automatic shut-offdampers on exhaust systems and suPPIY systems with airflow >3,000 cfm
[ � s_ Outside -air source for ventilation; system capable of redwing OSA to required minimum
[ ] 9. R --S supply and return air duct insulation in unconditioned spaces
R-8 supply and return air duct insulation outside the building
R-8 insulation between ducts and the building exterior when duels are part of a building assembly
-Exception: Duets located within equipment
- Exception: Ducts with interior and ea-terior temperature dfference not exceeding 15 deg. F.
l l I0 • Ducts sealed - longitudinal seams on rigid ducts,, transverse seams on all dints; LTL 181A or 181B tapes
and mastics
[ ] 11. Mechanical fasteners and sealants used to connect duets and air distribution equipment
[ ] 12. 140t N3tei' pipe insulation: 1 in. for pipes <= 1. 5 in. and Z in. for pipes > 1. 5 in.
�.1�.►�Gu water/ pipe �nsuiatton: 1 in, for pipes [- 1. 5 in. and 1. 5 in_ far pipes >1.� i
,�n.
}I
or i
- Exception: Piping within HVAC equipment p pes In.
- Exception: Fluid temperatures between 55 and 1,Q5 deg.. F
Exception: Fluid not heated or cooled
- Exception: Runouts <4 ft in length
C l 13. Operation and mainfcnance manual provided to building owner
[ � 14. Balancing devices provided in accordance with IMC 603.15
Requirements Specifflic To: IIVAC System 1
[ ] 1. Equipment minimum efficiency: Duct Furnace (Gas): 7 8% Et A Maximum Capacity., ? 5%o Et �a
Nfinimum Capacity
C ] Z. Newly purchased coaling equipment will meet the caving efficiency requirements
Section 5: Requirements Description
The following section provides a more detailed explanation of the requirementslisted in Section 4.
Genenc Requirements: Must be met by all systems to which the requirement �s applicable
1. Design heating and cooling loads dor the building must be deterlDined using Procedures equivalent to those in
Chapters 27 and 28 of the ASBRAE Handbook of Fundamentals or an approved equivalent calculation
procedure.
Z. All equipment and systems must be sized to be no greater than needed to meet calculated loads. A single piece
of equipment providing both heating and cooling must satisfy this provisian for one function with the capacity
for the other function as small as possible, within availably equipment options.
- Exception: The equipment and/or system capacity maybe greater than calculated loads for standby
Purposes. Standby egmpment must be automatically controlled to be off when the primary equipment and/or
system are operating.
-
Exception.: Multiple units of the same equipment type whose combined capacities exceed the calculated
load are allowed if they are provided with controls to sequence operation of the units as the load increases or
decreases.
3. Each heating or cooling system serving a singe zone must have its own temperature control device.
4. Each humidification system must have its awn humidity control device.
5. Thermostats Controlling both heating and cooling must be capable of maan�tining a 5 degree F deadband (a
range of temperature where no heating or cooling is provided).
Exception: Deadband capability is not required, i{'the thermostat doesnot. have automatic changeover
capability between heating and cooling.
6. The system or zone control must be a programmable thermostat or other automatic control meeting the
fallowing criteria:
a} capable of setting back temperature to 55 degree F during heating and sating up to 85 degree F during
cooling
b) capable of automatically setting back or shutting down systems during unoccupied hours using 7 different
day schedules
c} have an accessible 2 -hour occupant override
d} have a battery back -11p capable Of ri]a1ritaiIllng proMmMed settings for at least 10 hours without }ower.
Exception: A setback or shutoff control is not required on thermostats that control systems serving arias
that operate continuously.
- Exception: A setback or shutoff control is not required on -SYStems with total energy demand of 2 kW
(6,826 Btu/h) or less.
7. Outdoor -air supply systems with design airflaw rates greater than 3, 0 4 0 cfrn of outdoor air and all exhaust
systems must have dampers that are automatically closed while the equipment is not operating.
8. The system must supply outside ventilation air as required by Chapter 4 of the Internationai Mechanics]. Code.
If the ventilation system is designed to supply outdoor -air quantities exceeding minimum required levels,, the
system must be capable of reducing outdoor -air flow to the minimum required levels.
9. Air ducts must be insulated. to the following level:
a) Supply and return air ducts for conditioned air locatedin unconditioned maces (si aces neither heA.ted nor
cooled) must be insulated with a minimum of R-5. unconditioned spaces include attics, crawl spaces, unheated
DUCIRCHtl Ba M@al� guagN.
b) Supply and return air duets and plenums must be insulated to a minimum of R-8 when located outside the
buildin ,
c} When ducts are located within exterior components (e.g., floors or roofs), minimum R-8 insWation is
required only between the duct and the building exterior.
Exception: Duct insulation is not required on duels located within equipment.
-
Exception: Duct insulatian is not required when the design temperature difference between the interior
and exterior of the duct or plenum does not exceed 15 degree F.
10. Alljoints, longitudinal and transverse seams, and connections in ductwork must be securely seabed using
weldxnents; mechanical fasteners with seals, gaskets, or mastics; mesh and mastic sealing systems; or tapes.
Tapes and mastics must be listed and labeledirl accordance with UL 181A or UL 181B.
I1. Mechanical fasteners and seals, mastics, or gaskets must be used when connecting ducts to fans and other air
distribution equipment including mul,tjj31Q-zQIIg tgrMindl W11t&
12. All pipes serving space-conditzoning systems must be insulated as follows:
Hot water piping for heating systems:
]. in.
for pipeslessthan
or equal to 1
112 -in. nominal diameter
2 in.
for pages
greater than
1 1/2 -in.
nominal diameter_
Chilled water, refrigerant, and brine piping systems:
1 in. insulation for pipes less than. or equal to 1 1/2�in. nominal. diameter
1112 in. insulation for pipes greater than 1 1.12 -in. nominal diameter.
Steam piping:
1 1I2 in, insulation for pipes less than or equal to 1 1/2 -gin, no diameter
3 in. insulation for pipes greater than 1 112 -in. nominal diameter.
- Exception: Pipe insulation is not required for factory -installed piping within HVAC equipment.
Exception: Pipe insulation is not required for piping that conveys fluids having a design operating
temperature range between 55 degrees F and 105 degrees F.
0
- Exception: Pipe insulation is not required for piping that conveys fluids that have not been heated or
cooled tough the use of fossil fuels or electric power.
- Exception; Pipe insulation is not required for runout piping not exceeding 4 ft in length and 1 in. in
diameter between the control valve and HVAC coil,
13. Operation and maintenance documentation must be provided to the owner that includes at least the fallowing
infonnation.-
a)
equipment
capacity (input and output)
and required maintenance actions
b}
equipment
operation and maintenance
manuals
c) HVAC system control maintenance and calibration information, inclucling wiring diagrams, schematics,
and control sequence descriptions; desired or field-deterrnined set points must be permanently recorded on
control drawings, at control devices., or, for digital control systems, in progfanuning comment
d) complete narrative of how each system is intended to operate.
14. Each supply air outlet or diffuser and each zine ternm*nal device (such as VAV or ming box) must have its
own balancing device. Acceptable balancing devices include adjustable dampers located within the ductwork,
Terminal devices, and supply air diffusers.
Requirements Specific To: IIVAC System 1
1. The specified heading and/or cooling equipment is covered by ASBRAE 90.1 Code and must meet the
Capacity
following minimum eff-iciency: Duct �urnace (Gas).: 78% Et �7a Maximum Capacity, 75% Et @ minimum
2. The specified. cooling equipment is covered by Fede. ral minimum efficiency requirements. New equipment of
this type can be assumed to meet or exceed ASS 9a. 1 Code requirements for equipment e�'iciency.
Section G: Compliance Statement
The proposed mechanical design represented in this document is consistent with the building plans, specifications
and other calculations submitted with this perrnit application. The proposed mechanical systems have been
designed to meet the 2000 IIECC requirements in COMcheck-EZ Version 2.2 Release Ia.
Principal Mechanical Designer -Name
mm
t.
Date