HomeMy WebLinkAboutLA211764 - 18144 Gavel Lane - App and Forms wSWPPPRESIDENTIAL BUILDING
PERMIT APPLICATION
CITY OF LAKEVILLE
BUILDING INSPECTIONS DEPARTMENT
20195 HOLYOKE AVENUE
LAKEVILLE, MN 55044
952-985-4440
Office Use Only
__________________
Permit Number
___________________
Received By
___________________
Date Received
___________________
Fee Total
SITE ADDRESS:
MAILING ADDRESS: CITY: STATE: ZIP:
JOB DESCRIPTION:__________________________________ MASTER PLAN: (Number or Address)____________________
LIST OTHER STRUCTURES ON PROPERTY:_______________________________________________________________
ESTIMATED VALUATION: PROPOSED START DATE: END DATE:
(New Residential Only): LEGAL DESCRIPTION: LOT: _____ BLOCK: _____ SUBDIVISION:
APPLICANT IS: RESIDENT OWNER CONTRACTOR EMAIL
NEW MODEL HOME: YES NO (IF YES – ADMINISTRATIVE PERMIT REQUIRED)
PLEASE FILL OUT THE FOLLOWING COMPLETELY (All Contractor information must be as listed on State License)
RESIDENT OWNER
NAME:_______________________________________________________________________________
HOME PHONE #:_____________________________ CELL PHONE:___________________________
GENERAL CONTRACTOR
Homeowner
Contractor
CONTRACTOR:_______________________________________________________________________
LICENSE #:BC______________ LEAD CERTIFICATE#_______________ (PRE 1978 STRUCTURE)
OFFICE PHONE #:_____________________________ CELL PHONE:___________________________
ADDRESS:____________________________ CITY:________________ ST:______ ZIP:____________
PLUMBING WORK
Homeowner
Contractor
CONTRACTOR:__________________________________________LICENSE #: PM______________
OFFICE PHONE #:_____________________________ CELL PHONE:___________________________
ADDRESS:____________________________ CITY:________________ ST:______ ZIP:____________
MECHANICAL WORK
Homeowner
Contractor
CONTRACTOR:________________________________________ _______________________________
_____________________________ CELL PHONE:___________________________
ADDRESS:____________________________ CITY:________________ ST:______ ZIP:____________
BOND #:_______________________________________ EXPIRATION DATE____________________
SEWER/WATER CONTRACTOR
New Construction Only
NAME:________________________________________________ ______________________________
_____________________________ CELL PHONE:______________________________
BOND #:_______________________________________ EXPIRATION DATE____________________
NAME OF APPLICANT (Please Print)DATE
I HEREBY APPLY FOR PERMIT AND ACKNOWLEDGE THAT ALL INFORMATION ON THIS
APPLICATION IS COMPLETE AND ACCURATE. THIS IS NOT A PERMIT AND WORK IS NOT TO
COMMENCE UNTIL SUCH TIME A PERMIT IS ISSUED. ALL WORK WILL COMPLY WITH
LAKEVILLE CITY CODE, THE MINNESOTA STATE BUILDING CODE, AND THE APPROVED
PLANS. INTEREST EARNINGS ON ESCROW ACCOUNTS, IF ANY, WILL BE RETAINED BY THE
CITY TO OFFSET THE ADMINISTRATIVE COSTS ASSOCIATED WITH PROCESSING THE
ESCROW APPLICATION AND REFUND.
OFFICE PHONE #:_
OFFICE PHONE #:_
*Entering your name affirms your intent to comply with the statement above.
*
Submit Application To: permits@lakevillemn.gov
and jsexton@brandlanderson.com
RESIDENTIAL BUILDING PERMIT APPLICATION
PAGE 2
OFFICE USE ONLY
BUILDING PERMIT TYPE REQUIRED INSPECTIONS
SINGLE FAMILY DWELLING BUILDING
DUPLEX AS BUILT
TOWNHOUSE UNITS BUILDING FINAL
DETACHED TOWN HOUSE UNIT
CONDO
REROOF
RESIDE
RES ADDN/REPAIR/RMDL
DECK
PORCH
GARAGES
LOWER LEVEL FINISH
ADDITION
FOUNDATION ONLY
MISCELLANEOUS
DEMO
APPROVED BY:
BUILDING INSPECTOR: Date:
PLUMBING/MECHANICAL
INSPECTOR: Date:
COMMENTS:
CITY BUILDING VALUATION: $
BUILDING PERMIT FEES
$PERMIT FEE
$PLAN CHECK
$SURCHARGE
$METRO SAC
$CITY WATER HOOKUP UNIT
$CITY SEWER HOOKUP UNIT
$LANDSCAPE ESCROW
$TREE ESCROW
$MISC ESCROW
$PLUMBING
$MECHANICAL
$SEWER WATER
WATER METER
PRESSURE REDUCING VALVE
$OTHER
$TOTAL
METER SIZE
PRESSURE REDUCING VALVE
SEWER/WATER
SEWER/WATER
FINAL
STREET DRAINTILE
BUILDING INFORMATION
TYPE OF CONSTRUCTION
ZONING
CODE EDITION
FIRE SUPPRESSION SYSTEM
OCCUPANCY GROUP
MECHANICAL
AIR TEST
FINAL
ROUGH-IN
PLUMBING
FINAL
ROUGH-IN
INSULATION
LATH
DECK FOOTING
FIREPLACE
FOOTING
FOUNDATION
FRAMING
PORCH FRAMING
PORCH FOOTING
POURED WALL
SITE
LOWER LEVEL FINAL
OTHER
DECK FRAMING
LOWER LEVEL FRAMING
LANDSCAPING
DECK FINAL
$
$
ACCESSORY BUILDING
EGRESS WINDOW
UNDERGROUND
Date Certificate Posted
x Passive (No Fan)
Active (With fan and monometer or
other system monitoring device)
Location (or future Location) of Fan:
X
R-15 X
X
R-20 X
R-20 X
R-20 X
R-49 X
R-49 X
R-38 X
R-38 X
Not applicable, all ducts located in conditioned space
R-8
MECHANICAL SYSTEMS
Not required per mech. code
4"Passive
Powered
Interlocked with exhaust device.
Describe:
Input in
BTUS:40000 Capacity in
Gallons:Other, describe:
AFUE or HSPF%92%
Cfm's " round duct OR
" metal duct
Not required per mech. code
X Passive
X Low: Other, describe:
Low:
Cfm's
Capacity continuous ventilation rate in cfms:5 " round duct OR
Total ventilation (intermittent + continuous) rate in cfms: " metal duct
Other Please Describe Here
HEAT LOSS
34828
HEAT GAIN
17645
COOLING LOAD
22072
Building Envelope air Tightness:Duct system air tightness:
Below Entire Slab
Ceiling, flat Total R-Value of all Types of InsulationType: Check All That Apply
Non or Not ApplicableFiberglass, BlownFiberglass, Batts Manufacturer
Make-up Air Select a Type
Per R401.3 Building Certificate. A building certificate shall be posted on or in the electrical distribution panel.4/7/23
New Construction Energy Code Compliance Certificate
Name of Residential Contractor
Brandl Anderson
MN License Number
Mailing Address of the Dwelling or Dwelling Unit18144 Gavel Lane
125
Interior
Bryant
Domestic Water Heater Heating System
NAT GAS
Bryant
912SD36040E17
Average U-Factor (excludes skylights and one door) U: .27-.31
Heating or Cooling Ducts Outside Conditioned Spaces
Floors over unconditioned areas
Describe other insulated areas
Fuel Type
Solar Heat Gain Coefficient (SHGC):
Windows & Doors
Model
R-value.25-.29
GPVL-50 BA13NA024
Lakeville
Plan ID
Trillium Mid Unit
Location of duct or system:
Foundation Wall
Perimeter of Slab on Grade
Rim Joist (1st Floor)
Ceiling, vaulted
City
Bay Windows or cantilevered areas
RADON CONTROL SYSTEM
Rim Joist (2nd Floor)
Wall
exterior
Interior
THERMAL ENVELOPE
Insulation Location
Foam, Closed CellFoam Open CellMineral FiberboardRigid, Extruded PolystyreneRigid, Isocynurate Appliances
AOSMITH
63
NAT GAS R-410A
Cooling System
Rating or Size
SEER or EER
50 Output in
Tons:2
Efficiency
RESIDENTIAL LOAD CALC
13
Locations of Fans, describe:
Location of duct or system:
Select Type
furnace room
63Heat Recover Ventilator (HRV) Capacity in cfms:
Energy Recover Ventilator (ERV) Capacity in cfms:
126
Describe any additional or combined heating or cooling systems if installed: (e.g. two furnaces or air
source heat pump with gas back-up furnace
Combustion Air Select a Type
Balanced Ventilation Capcity in CFMS:
High:
High:
Mechanical Ventilation System
18144 Gavel Lane Lakeville Trillium Mid Unit
HVAC Load Calculations
for
Brandle Anderson
Prepared By:
Josh Gray
Sabre Heating And A/C
15535 Medina Road
Plymouth, Mn 55447
763-473-2267
Friday, April 7, 2023
Rhvac is an ACCA approved Manual J, D and S computer program.
Calculations are performed per ACCA Manual J 8th Edition, Version 2, and ACCA Manual D.
Rhvac - Residential & Light Commercial HVAC Loads Elite Software Development, Inc.
Sabre Plumbing & Heating 18144 Gavel Lane Lakeville Trillium Mid Unit
Plymouth, MN 55447 Page 2
Project Report
General Project Information
Project Title:18144 Gavel Lane Lakeville Trillium Mid Unit
Designed By:Josh Gray
Project Date:Friday, April 7, 2023
Client Name:Brandle Anderson
Company Name:Sabre Heating And A/C
Company Representative:Josh Gray
Company Address:15535 Medina Road
Company City:Plymouth, Mn 55447
Company Phone:763-473-2267
Design Data
Reference City:Minneapolis/St. Paul AP, Minnesota
Building Orientation:Front door faces East
Daily Temperature Range:Medium
Latitude:44 Degrees
Elevation:834 ft.
Altitude Factor:0.970
Outdoor Outdoor Outdoor Indoor Indoor Grains
Dry Bulb Wet Bulb Rel.Hum Rel.Hum Dry Bulb Difference
Winter:-15 -15.33 n/a 30%72 33.90
Summer:88 72 47%50%75 29
Check Figures
Total Building Supply CFM:788 CFM Per Square ft.:0.346
Square ft. of Room Area:2,277 Square ft. Per Ton:1,238
Volume (ft³):17,058
Building Loads
Total Heating Required Including Ventilation Air:34,828 Btuh 34.828 MBH
Total Sensible Gain:17,645 Btuh 80 %
Total Latent Gain:4,427 Btuh 20 %
Total Cooling Required Including Ventilation Air:22,072 Btuh 1.84 Tons (Based On Sensible + Latent)
Notes
Rhvac is an ACCA approved Manual J, D and S computer program.
Calculations are performed per ACCA Manual J 8th Edition, Version 2, and ACCA Manual D.
All computed results are estimates as building use and weather may vary.
Be sure to select a unit that meets both sensible and latent loads according to the manufacturer's performance data at
your design conditions.
M:\ ...\18144 Gavel Lane Lakeville Trillium Mid Unit.rh9 Friday, April 7, 2023, 12:53 PM
Rhvac - Residential & Light Commercial HVAC Loads Elite Software Development, Inc.
Sabre Plumbing & Heating 18144 Gavel Lane Lakeville Trillium Mid Unit
Plymouth, MN 55447 Page 3
Load Preview Report
Scope
Net
Ton
ft.²
/Ton Area
Sen
Gain
Lat
Gain
Net
Gain
Sen
Loss
Sys
Htg
CFM
Sys
Clg
CFM
Sys
Act
CFM
Duct
Size
Building 1.84 1,238 2,277 17,645 4,427 22,072 34,828 393 788 788
System 1 1.84 1,238 2,277 17,645 4,427 22,072 34,828 393 788 788 10x15
Ventilation 694 2,414 3,108 4,643
Supply Duct Latent 220 220
Return Duct 124 92 216 823
Humidification 4,384
Zone 1 2,277 16,827 1,701 18,528 24,979 393 788 788 10x15
1-Lower Level 808 2,987 0 2,987 9,131 144 140 140 2--6
2-Main Level 808 9,356 1,701 11,057 8,023 126 438 438 4--7
3-Upper Level 661 4,485 0 4,485 7,825 123 210 210 2--7
M:\ ...\18144 Gavel Lane Lakeville Trillium Mid Unit.rh9 Friday, April 7, 2023, 12:53 PM
Rhvac - Residential & Light Commercial HVAC Loads Elite Software Development, Inc.
Sabre Plumbing & Heating 18144 Gavel Lane Lakeville Trillium Mid Unit
Plymouth, MN 55447 Page 4
Total Building Summary Loads
Component
Description
Area
Quan
Sen
Loss
Lat
Gain
Sen
Gain
Total
Gain
LOWEE: Glazing-Low E Builder Grade Window, U-value
0.32, SHGC 0.3
172 4,787 0 5,537 5,537
11J: Door-Metal - Fiberglass Core, U-value 0.6 37.8 1,972 0 544 544
R20 - 12F0sw: Wall-Frame, Custom, R-20 Insulation in
2x6 Stud Cavity, siding finish, wood studs, U-value
0.065
1139.2 6,442 0 984 984
15A-15sffc-8: Wall-Basement, concrete block wall, R-15
foam board to floor, no framing, no interior finish,
filled core, 8' floor depth, U-value 0.034, above grade
U-value 0.055
279 881 0 16 16
RJ20: Wall-Frame, Custom, R-20 Closed Cell Spray
Foam Insulation in Frame Rim Joist, U-value 0.05
186 808 0 124 124
R49 16B-49: Roof/Ceiling-Under Attic with Insulation on
Attic Floor (also use for Knee Walls and Partition
Ceilings), Custom, Vented Attic, No Radiant Barrier,
Dark Asphalt Shingles
R-49 Insulation, U-value 0.02 661 1,150 0 635 635
22B-10pm: Floor-Slab on grade, Vertical board insulation
covers slab edge and extends straight down to 3'
below grade, any floor cover, R-10 insulation,
passive, heavy dry or light wet soil, U-value 0.355
124 3,830 0 0 0
20P-30: Floor-Over open crawl space or garage, Passive,
R-30 blanket insulation, any cover, U-value 0.035
500 1,523 0 140 140
Subtotals for structure:21,393 0 7,980 7,980
People:4 800 920 1,720
Equipment:901 4,116 5,017
Lighting:750 2,558 2,558
Ductwork:4,408 312 910 1,223
Infiltration: Winter CFM: 0, Summer CFM: 0 0 0 0 0
Ventilation: Winter CFM: 125, Summer CFM: 125 4,643 2,414 694 3,108
Humidification (Winter) 11.95 gal/day :4,384 0 0 0
AED Excursion:0 0 468 468
Total Building Load Totals:34,828 4,427 17,645 22,072
Check Figures
Total Building Supply CFM:788 CFM Per Square ft.:0.346
Square ft. of Room Area:2,277 Square ft. Per Ton:1,238
Volume (ft³):17,058
Building Loads
Total Heating Required Including Ventilation Air:34,828 Btuh 34.828 MBH
Total Sensible Gain:17,645 Btuh 80 %
Total Latent Gain:4,427 Btuh 20 %
Total Cooling Required Including Ventilation Air:22,072 Btuh 1.84 Tons (Based On Sensible + Latent)
Notes
Rhvac is an ACCA approved Manual J, D and S computer program.
Calculations are performed per ACCA Manual J 8th Edition, Version 2, and ACCA Manual D.
All computed results are estimates as building use and weather may vary.
Be sure to select a unit that meets both sensible and latent loads according to the manufacturer's performance data at
your design conditions.
M:\ ...\18144 Gavel Lane Lakeville Trillium Mid Unit.rh9 Friday, April 7, 2023, 12:53 PM
Site address
Contractor
1
Total/
continuous
60/40
70/40
80/40
90/45
100/50
110/55
120/60
130/65
140/70
150/75
Equation 11-1
Directions - Determine the total and continuous ventilation rate by either using Table R403.5.2 or equation 11-1.
The table and equation are below
Total required ventilation
Continuous ventilation
Section A
Total ventilation – The mechanical ventilation system shall provide sufficient outdoor air to equal the total ventilation rate
average, for each one‐hour period according to the above table or equation. For heat recovery ventilators (HRV) and energy
recovery ventilators (ERV) the average hourly ventilation capacity must be determined in consideration of any reduction of
exhaust or out outdoor air intake, or both, for defrost or other equipment cycling.
Continuous ventilation - A minimum of 50 percent of the total ventilation rate, but not less than 40 cfm, shall be provided,
on a continuous rate average for each one‐hour period. The portion of the mechanical ventilation system intended to be
continuous may have automatic cycling controls providing the average flow rate for each hour is met.
(0.02 x square feet of conditioned space) + [15 x (number of bedrooms + 1)] = Total ventilation rate (cfm)
Date
Completed
By
Ventilation Quantity
(Determine quantity by using Table R403.5.2 or Equation 11‐1)
Square feet (Conditioned area including
Basement – finished or unfinished)
Number of bedrooms
Table R403.5.2
Total and Continuous Ventilation Rates (in cfm)
Number of Bedrooms
2 3 4 5 6
Total/
continuous
1000‐1500 75/40 90/45 105/53 120/60 135/68
Conditioned space (in
sq. ft.)
Total/
continuous
Total/
continuous
Total/
continuous
Total/
continuous
145/73
2001‐2500 95/48 110/55 125/63 140/70 155/78
1501‐2000 85/43 100/50 115/58 130/65
165/83
3001‐3500 115/58 130/65 145/73 160/80 175/88
2501‐3000 105/53 120/60 135/68 150/75
185/93
4001‐4500 135/68 150/75 165/83 180/90 195/98
3501‐4000 125/63 140/70 155/78 170/85
205/103
5001‐5500 155/78 170/85 185/93 200/100 215/108
4501‐5000 145/73 160/80 175/88 190/95
225/1135501‐6000 165/83 180/90 195/98 210/105
Continuous
Ventilation Method
(Choose either balanced or exhaust only)
Low cfm:High cfm:Continuous fan rating in cfm (capacity must not exceed
continuous ventilation rating by more than 100%)
Ventilation Fan Schedule
Description Location Intermittent
Section C
Directions - The ventilation fan schedule should describe what the fan is for, the location, cfm, and whether it is used for continuous
or intermittent ventilation. The fan that is chose for continuous ventilation must be equal to or greater than the low cfm air rating
and less than 100% greater than the continuous rate. (For instance, if the low cfm is 40 cfm, the continuous ventilation fan must not
exceed 80 cfm.) Automatic controls may allow the use of a larger fan that is operated a percentage of each hour.
Section D
Directions - Describe the operation of the ventilation system. There should be adequate detail for plan reviewers and inspectors to verify design and
installation compliance. Related trades also need adequate detail for placement of controls and proper operation of the building ventilation. If exhaust fans
are used for building ventilation, describe the operation and location of any controls, indicators and legends. If an ERV or HRV is to be installed, describe how
it will be installed. If it will be connected and interfaced with the air handling equipment, please describe such connections as detailed in the manufactures’
installation instructions. If the installation instructions require or recommend the equipment to be interlocked with the air handling equipment for proper
operation, such interconnection shall be made and described.
Section B
Balanced, HRV (Heat Recovery Ventilator) or ERV (Energy Recovery
Ventilator) – cfm of unit in low must not exceed continuous
ventilation rating by more than 100%.
Exhaust only
Continuous fan rating in cfm
Directions - Choose the method of ventilation, balanced or exhaust only. Balanced ventilation systems are typically HRV or ERV’s.
Enter the low and high cfm amounts. Low cfm air flow must be equal to or greater than the required continuous ventilation rate and
less than 100% greater than the continuous rate. (For instance, if the low cfm is 40 cfm, the ventilation fan must not exceed 80 cfm.)
Automatic controls may allow the use of a larger fan that is operated a percentage of each hour.
Ventilation Controls
(Describe operation and control of the continuous and intermittent ventilation)
One or multiple power
vent or direct vent ap‐ pliances
or no combus‐ tion appliances
Column A
One or multiple fan‐
assisted appliances and power
vent or direct vent appliances
Column B
One atmospherically vent
gas or oil appliance or one solid
fuel appliance
Column C
Multiple atmospherical‐
ly vented gas or oil appliances
or solid fuel appliances
Column D
1.
a) pressure factor
(cfm/sf)
0.15 0.09 0.06 0.03
b) conditioned floor area (sf) (including
unfinished basements)
Estimated House Infiltration (cfm): [1a
x 1b]
2. Exhaust Capacity
a) continuous exhaust‐only ventilation system
(cfm); (not applicable to ba‐ lanced ventilation
systems such as HRV)
b) clothes dryer (cfm)135 135 135 135
c) 80% of largest exhaust rating (cfm);
Kitchen hood typically
(not applicable if recirculating system or if
powered makeup air is electrically interlocked
and match to exhaust)d) 80% of next largest exhaust rating
(cfm); bath fan typically
(not applicable if recirculating system or if
powered makeup air is electrically interlocked
and matched to exhaust)
Not
Applicable
Total Exhaust Capacity (cfm);
[2a + 2b +2c + 2d]
3. Makeup Air Quantity (cfm)
a) total exhaust capacity (from above)
b) estimated house infiltration (from
above)
Makeup Air Quantity (cfm);
[3a – 3b]
(if value is negative, no makeup air is needed)
4. For makeup Air Opening Sizing, refer
to Table 501.4.2
C. Use this column if there is one atmospherically vented (other than fan‐assisted) gas or oil appliance per venting system or one solid fuel appliance.
D. Use this column if there are multiple atmospherically vented gas or oil appliances using a common vent or if there are atmospherically vented gas or oil appliances and solid
fule appliances.
Table 501.4.1
PROCEDURE TO DETERMINE MAKEUP AIR QUANITY FOR EXHAUST EQUIPMENT IN DWELLINGS
(Additional combustion air will be required for combustion appliances, see KAIR method for calculations)
Directions ‐ In order to determine the makeup air, Table 501.4.1 must be filled out (see below). For most new installations, column A will be appropriate, however, if
atmospherically vented appliances or solid fuel appliances are installed, use the appropriate column. Please note, if the makeup air quantity is negative, no additional makeup air
will be required for ventilation, if the value is positive refer to Table 501.4.2 and size the opening. Transfer the cfm, size of opening and type (round, rectangular, flex or rigid) to
the last line of section D.
A. Use this column if there are other than fan‐assisted or atmospherically vented gas or oil appliance or if there are no combustion appliances. (Power vent and direct vent
appliances may be used.)
B. Use this column if there is one fan‐assisted appliance per venting system. (Appliances other than atmospherically vented appliances may also be included.)
One or multiple power
vent, direct vent ap‐
pliances, or no combus‐
tion appliances
Column A
Multiple atmospherically
vented gas or oil ap‐
pliances or solid fuel
appliances
Column D
Duct di‐
ameter
1 – 36 1 – 9 3
37 – 66 10 – 17 4
67 – 109 18 – 28 5
110 ‐ 163 29 – 42 6
164 – 232 43 – 61 7
233 – 317 62 – 83 8
318 – 419 84 – 110 9
420 – 539 111 – 142 10
540 – 679 143 – 179 11
>679 >179 NA
Notes:
A. An equivalent length of 100 feet of round smooth metal duct is assumed. Subtract 40 feet for the exterior hood and ten feet for each 90‐ degree elbow to
determine the remaining length of straight duct allowable.
B. If flexible duct is used, increase the duct diameter by one inch. Flexible duct shall be stretched with minimal sags. Compressed duct shall not be accepted.
C. Barometric dampers are prohibited in passive makeup air openings when any atmospherically vented appliance is installed.
D. Powered makeup air shall be electrically interlocked with the largest exhaust system.
Explanation ‐ If no atmospheric or power vented appliances are installed, check the appropriate box, not required. If a power vented
or atmospherically vented appliance installed, use IFGC Appendix E, Worksheet E‐1 (see below). Please enter size and type. Combustion
air vent supplies must communicate with the appliance or appliances that require the combustion air.
Section F calculations follow on the next 2 pages.
One or multiple fan‐
assisted appliances and
power vent or direct vent
appliances Column B
One atmospherically vented
gas or oil ap‐
pliance or one solid fuel
appliance
Column CPassive opening 1 – 22 1 – 15
Passive opening 23 – 41 16 – 28
Passive opening 42 – 66 29 – 46
Passive opening 67 – 100 47 – 69
Passive opening 101 – 143 70 – 99
231 – 290
Passive opening 144 – 195 100 – 135
Passive opening
w/motorized damper
196 – 258 136 – 179
Passive (see IFGC Appendix E, Worksheet E‐1)Size and type
Other, describe:
Table 501.4.2
Makeup Air Opening Sizing Table for New and Existing Dwelling Units
Powered makeup air >419 >290
Combustion air
Not required per mechanical code (No atmospheric or power vented appliances)
Passive opening
w/motorized damper
259 – 332 180 – 230
Passive opening
w/motorized damper
333 – 419
IFGC Appendix E, Worksheet E‐1
Residential Combustion Air Calculation Method
(for Furnace, Boiler, and/or Water Heater in the Same Space)
Step 1: Complete vented combustion appliance information.
Furnace/Boiler:
Draft Hood Fan Assisted Direct Vent Input: Btu/hr or Power Vent
Water Heater:
Draft Hood Fan Assisted Direct Vent Input: Btu/hr or Power Vent
Step 2: Calculate the volume of the Combustion Appliance Space (CAS) containing combustion appliances.
The CAS includes all spaces connected to one another by code compliant openings. CAS volume: ft3
L x W x H L W H
Step 3: Determine Air Changes per Hour (ACH)1
Default ACH values have been incorporated into Table E‐1 for use with Method 4b (KAIR Method). If the year of construction or ACH is not known, use
method 4a (Standard Method).
Step 4: Determine Required Volume for Combustion Air. (DO NOT COUNT DIRECT VENT APPLIANCES)
4a. Standard Method
Total Btu/hr input of all combustion appliances Input: Btu/hr
Use Standard Method column in Table E‐1 to find Total Required TRV: ft3
Volume (TRV)
If CAS Volume (from Step 2) i s gr ea t er th an TRV then no outdoor openings are needed.
If CAS Volume (from Step 2) i s less than TRV then go to STEP 5.
4b. Known Air Infiltration Rate (KAIR) Method (DO NOT COUNT DIRECT VENT APPLIANCES)
Total Btu/hr input of all fan-assisted and power vent appliances Input: Btu/hr
Use Fan‐Assisted Appliances column in Table E‐1 to find RVFA: ft3
Required Volume Fan Assisted (RVFA)
Total Btu/hr input of all Natural draft appliances Input: Btu/hr
Use Natural draft Appliances column in Table E‐1 to find RVNFA: ft3
Required Volume Natural draft appliances (RVNDA)
Total Required Volume (TRV) = RVFA + RVNDA TRV = + = TRV ft3
Step 5: Calculate the ratio of available interior volume to the total required volume.
Ratio = CAS Volume (from Step 2) divided by TRV (from Step 4a or Step 4b)
Ratio = / =
Step 6: Calculate Reduction Factor (RF).
RF = 1 mi nus Ratio RF = 1 ‐ =
Step 7: Calculate single outdoor opening as if all combustion air is from outside.
Total Btu/hr input of all Combustion Appliances in the same CAS Input: Btu/hr
(EXCEPT DIRECT VENT)
Combustion Air Opening Area (CAOA):
Total Btu/hr d i vid ed by 3000 Btu/hr per in2 CAOA = / 3000 Btu/hr per in2 = in2
Step 8: Calculate Minimum CAOA.
Minimum CAOA = CAOA multiplied by RF Minimum CAOA = x = in2
Step 9: Calculate Combustion Air Opening Diameter (CAOD)
CAOD = 1.13 m ultiplied by the sq uare root of Minimum CAOA CAOD = 1.13 √ Minimum CAOA = in. diameter go up one inch in size
if using flex duct
1 If desired, ACH can be determined using ASHRAE calculation or blower door test. Follow procedures in Section
G304.
Directions ‐ The Minnesota Fuel Gas Code method to calculate to size of a required combustion air opening, is called the Known Air
Infiltration Rate Method. For new construction, 4b of step 4 is required to be filled out.
1994 to present Pre‐1994 1994 to present Pre‐1994
5,000 250 375 188 525 263
10,000 500 750 375 1,050 525
15,000 750 1,125 563 1,575 788
20,000 1,000 1,500 750 2,100 1,050
25,000 1,250 1,875 938 2,625 1,313
30,000 1,500 2,250 1,125 3,150 1,575
35,000 1,750 2,625 1,313 3,675 1,838
40,000 2,000 3,000 1,500 4,200 2,100
45,000 2,250 3,375 1,688 4,725 2,363
50,000 2,500 3,750 1,675 5,250 2,625
55,000 2,750 4,125 2,063 5,775 2,888
60,000 3,000 4,500 2,250 6,300 3,150
65,000 3,250 4,875 2,438 6,825 3,413
70,000 3,500 5,250 2,625 7,350 3,675
75,000 3,750 5,625 2,813 7,875 3,938
80,000 4,000 6,000 3,000 8,400 4,200
85,000 4,250 6,375 3,188 8,925 4,463
90,000 4,500 6,750 3,375 9,450 4,725
95,000 4,750 7,125 3,563 9,975 4,988
100,000 5,000 7,500 3,750 10,500 5,250
105,000 5,250 7,875 3,938 11,025 5,513
110,000 5,500 8,250 4,125 11,550 5,775
115,000 5,750 8.625 4,313 12,075 6,038
120,000 6,000 9,000 4,500 12,600 6,300
125,000 6,250 9,375 4,688 13,125 6,563
130,000 6,500 9,750 4,875 13,650 6,825
135,000 6,750 10,125 5,063 14,175 7,088
140,000 7,000 10,500 5,250 14,700 7,350
145,000 7,250 10,875 5,438 15,225 7,613
150,000 7,500 11,250 5,625 15,750 7,875
155,000 7,750 11,625 5,813 16,275 8,138
160,000 8,000 12,000 6,000 16,800 8,400
165,000 8,250 12,375 6,188 17,325 8,663
170,000 8,500 12,750 6,375 17,850 8,925
175,000 8,750 13,125 6,563 18,375 9,188
180,000 9,000 13,500 6,750 18,900 9,450
185,000 9,250 13,875 6,938 19,425 9,713
190,000 9,500 14,250 7,125 19,950 9,975
195,000 9,750 14,625 7,313 20,475 10,238
200,000 10,000 15,000 7,500 21,000 10,500
205,000 10,250 15,375 7,688 21,525 10,783
210,000 10,500 15,750 7,875 22,050 11,025
215,000 10,750 16,125 8,063 22,575 11,288
220,000 11,000 16,500 8,250 23,100 11,550
225,000 11,250 16,875 8,438 23,625 11,813
230,000 11,500 17,250 8,625 24,150 12,075
1. The 1994 date refers to dwellings constructed under the 1994 Minnesota Energy Code. The default KAIR used in this section of the table is
0.20 ACH.
2. This section of the table is to be used for dwellings constructed prior to 1994. The default KAIR used in this section of the table is 0.40 ACH.
IFGC Appendix E, Table E‐1
Residential Combustion air (Required Interior Volume Based on Input Rating of Appliance)
Input Rating
(Btu/hr)
Standard Method Known Air Infiltration Rate (KAIR) Method (cu ft)
Fan Assisted or Power Vent Natural Draft