HomeMy WebLinkAboutLA174215 - 17373 Eastwood Ave Permit PackRESIDENTIAL BUILDING PERMIT APPLICATION
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OFFICE USE ONLY
BUILDING PERMIT TYPE REQUIRED INSPECTIONS
SINGLE FAMILY DWELLING BUILDING
DUPLEX AS BUILT
TOWNHOUSE UNITS BUILDING FINAL
DETACHED TOWN HOUSE UNIT DECK FOOTING
CONDO FIREPLACE
ACESSORY BUILDING FOOTING
REROOF FOUNDATION
RESIDE FRAMING
PORCH FRAMING
GARAGES
INSULATION
RES ADDN/REPAIR/RMDL
DECK
PORCH
GARAGES LATH
LOWER LEVEL FINISH LOWER LEVEL FINAL
ADDITION OTHER
FOUNDATION ONLY PORCH FOOTING
MISCELLANEOUS POURED WALL
DEMO SEPTIC TANK REMOVAL
MOVED SITE
MECHANICAL
CITY BUILDING VALUATION: $AIR TEST
FINAL
BUILDING PERMIT FEES ROUGH-IN
$PERMIT FEE PLUMBING
$PLAN CHECK FINAL
$SURCHARGE ROUGH-IN
$METRO SAC METER SIZE
$CITY WATER HOOKUP UNIT PRESSURE REDUCING VALVE
$CITY SEWER HOOKUP UNIT SEWER/WATER
$LANDSCAPE ESCROW SEWER/WATER
$TREE ESCROW FINAL
$MISC ESCROW STREET DRAINTILE
$PLUMBING BUILDING INFORMATION
$MECHANICAL TYPE OF CONSTRUCTION
$SEWER WATER ZONING
$OTHER CODE EDITION
$TOTAL FIRE SUPPRESSION SYSTEM
OCCUPANCY GROUP
APPROVED BY:
BUILDING INSPECTOR: Date:
PLUMBING/MECHANICAL
INSPECTOR: Date:
COMMENTS:
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Concept Approval ONLY Subject to Field Inspection
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Date2015MN Bldg Code 10/04/2019 dmathews
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TOTAL INPUT OF APPLIANCES1,
THOUSANDS OF Btu/hr
(kW)
REQUIRED FREE AREA OF AIR-SUPPLY
OPENING OR DUCT, SQUARE INCHES
(sq mm)
ACCEPTABLE APPROXIMATE ROUND DUCT
EQUIVALENT DIAMETER2,
INCH (mm)
25 (8)7 (4,500)3 (75)
50 (15)7 (4,500)3 (75)
75(23)11 (7,000)4 (100)
100 (30)14 (9,000)4 (100)
125 (37)18 (12,000)5 (125)
150 (45)22 (14,000)5 (125)
175 (53)25 (16,000)6 (150)
200 (60)29 (19,000)6 (150)
225 (68)32 (21,000)6 (150)
250 (75)36 (23,000)7 (175)
275 (83)40 (26,000)7 (175)
300 (90)43 (28,000)7 (175)
325 (98)47 (30,000)8 (200)
350 (105)50 (32,000)8 (200)
375 (113)54 (35,000)8 (200)
400 (120)58 (37,000)9 (225)
1. For total inputs falling between listed capacities, use next largest listed input.
2. If flexible duct is used, increase the duct diameter by one inch. *
*Flexible duct shall be stretched with minimal sags.
TABLE 304.1
COMBUSTION AIR REQUIREMENTS FOR GAS-FIRED
APPLIANCES WHEN THE COMBINED INPUT IS UP TO
AND INCLUDING 400,000 Btu/hr
BTU Amount for Non-direct vent appliances_____________________
1 2 3 4 5 6 2
Conditioned space1 (in sq. ft.)
Total/
Continuous
Total/
Continuous
Total/
Continuous
Total/
Continuous
Total/
Continuous
Total/
Continuous
1000-1500 60/40 75/40 90/45 105/53 120/60 135/68
1501-2000 70/40 85/43 100/50 115/58 130/65 145/73
2001-2500 80/40 95/48 110/55 125/63 140/70 155/78
2501-3000 90/45 105/53 120/60 135/68 150/75 165/83
3001-3500 100/50 115/58 130/65 145/73 160/80 175/88
3501-4000 110/55 125/63 140/70 155/78 170/85 185/93
4001-4500 120/60 135/68 150/75 165/83 180/90 195/98
4501-5000 130-65 145/73 160/80 175/88 190/95 205/103
5001-5500 140/70 155/78 170/85 185/93 200/100 215/108
5501-6000 2 150/75 165/83 180/90 195/98 210/105 225/113
1. Conditioned space includes the basement and conditioned crawl spaces.
2. If conditioned space exceeds 6000 sq. ft. or there are more than 6 bedrooms, use Equation R403.5.2
R403.5.2 Total Ventilation rate.
The mechanical ventilation system shall rovide sufficient outdoor air to equal the total ventilation rate average
for each 1- hour period in accordance with Table R403.5.2, or Equation 403.5.2, based on the number of bedrooms and
square footage of conditioned space, including the basement and conditioned crawl spaces.
For the purposes of Table R403.5.2 and Section R403.5.3, the following applies:
a. Equation R403.5.2 Total ventilation rate:
Total ventilation rate (cfm) = (0.02 x square feet of conditioned space) + (15 x (number of bedrooms +1))
b. Equation R403.5.2.1 Continuous ventilation rate: Continuous ventilation rate (cfm) = Total ventiation rate/2
Amount Total _________________________
Amount Continuous____________________
TABLE R403.5.2
NUMBER OF BEDROOMS
VENTILATION REQUIREMENTS
ONE OR MULTIPLE POWER VENT
OR DIRECT VENT APPLIANCES OR
NO COMBUSTION APPLIANCESA
ONE OR MULTIPLE FAN-
ASSISTED APPLIANCES AND
POWER VENT OR DIRECT
VENT APPLIANCESB
ONE ATMOSPHERICALLY
VENTED GAS OR OIL
APPLIANE OR ONE
SOLID FUEL APPLIANCEC
MULTIPLE APPLIANCES THAT
ARE ATMOSPHERICALLY
VENTED GAS OR OIL
APPLIANCES OR SOLID FUEL
APPLIANCESD
1. Use the Appropriate Column to Estimate House Infiltration
a) pressure factor
(cfm/sf)
b) conditioned floor
area (sf)
(including unfinished basements)
Estimated House
Infiltration (cfm):
[1a x 1b]
2. Exhaust Capacity
a) clothes dryer
b) 80% of largest
exhaust rating (cfm):
(not applicable if recirculating system or if powered makeup air is electrically interlocked and matched to exhaust)
c) 80% of next largest
exhaust rating (cfm):not applicable
(not applicable if recirculating system or if powered makeup air is electrically interlocked and matched to exhaust)
Total Exhaust Capacity
(cfm):
[2a+2b+2c]
3. Makeup Air Requirement
a) Total Exhaust
Capacity
(from above)
b) Estimated House
Infiltration (from
above)
Makeup Air
Quality (cfm):
[3a - 3b]
(if value is negative, no makeup air is needed
4. For Makeup Air Opening Sizing, refer to Table 501.4.2.
A. Use this column if there are other than fan-assisted or atmospherically vented gas or oil appliances or if there are no combustion appliances.
B. Use this column if there is one fan-assisted appliance per venting system. Other than atmospherically vented appliances may also be included.
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 fuel appliances.
Table 501.4.1
Procedure to Determine Makeup Air Quantity for Exhaust Appliances in Dwelling Units
Choose Which Applies
TYPE OF OPENING
ONE OR MULTIPLE POWER
VENT OR DIRECT VENT
APPLIANCES OR NO
COMBUSTION
APPLIANCESA
ONE OR MULTIPLE FAN-
ASSISTED APPLIANCES
AND POWER VENT OR
DIRECT VENT APPLIANCESB
ONE
ATMOSPHERICALLY
VENTED GAS OR OIL
APPLIANCE OR ONE
SOLID FUEL
APPLIANCEC
MULTIPLE APPLIANCES
THAT ARE
ATMOSPHERICALLY
VENTED GAS OR OIL
APPLIANCES OR SOLID
FUEL APPLIANCESD
PASSIVE MAKEUP
AIR OPENING
DUCT
DIAMETERE,F,G
OR SYSTEM (cfm)(cfm)(cfm)(cfm)(inches)
Passive opening 1-36 1-22 1-15 1-9 3
Passive opening 37-66 23-41 16-28 10-17 4
Passive opening 67-109 42-66 29-46 18-28 5
Passive opening 110-163 67-100 47-69 29-42 6
Passive opening 164-232 101-143 70-99 43-61 7
Passive opening 233-317 144-195 100-135 62-83 8
Passive opening
with motorized
damper 318-419 196-258 136-179 84-110 9
Passive opening
with motorized
damper 420-539 259-332 180-230 111-142 10
Passive opening
with motorized
damper 540-679 333-419 231-290 143-179 11
Powered makeup
airH >679 >419 >290 >179 Not applicable
A. Use this column if there are other than fan-assisted or atmospherically vented gas or oil appliances or if there are no combustion appliances.
B. Use this column if there is one fan-assisted appliance per venting system. Other than atmospherically vented appliances may also be included.
C. Use this column if there is one atmospherically vented (ther 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 fuel appliances.
E. 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.
F. If flexible duct is used, increase the duct diameter by one inch. Flexible duct shall be stretched with minimal sags.
G. Barometric dampers are prohibited in passive makeup air openings when any atmospherically vented appliance is installed.
H. Powered makeup air shall be electrically interlocked with the largest exhaust system.
Table 501.4.2
Makeup Air Opening Sizing Table for New and Existing Dwelling Units
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 combution appliace information:
Furnace/Boiler:
Draft Hood Fan Assisted Direct Vent Input: Btu/hr
(Not fan Assisted) & Power Vent
Water Heater:
Draft Hood Fan Assisted Direct Vent Input: Btu/hr
( Not fan Assisted) & 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: ft 3
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.
4a. Standard Method
Total Btu/hr input of all combustion appliances (DO NOT COUNT DIRECT VENT APPLIANCES) Input: Btu/hr
Use Standard Method column in Table E-1 to find Total Required Volume (TRV) TRV: ft 3
If CAS Volume (from Step 2) is greater than TRV then no outdoor openings are needed.
If CAS Volume (from Step 2) is less than TRV then go to STEP 5.
4b. Known Air Infiltration Rate (KAIR) Method
Total Btu/hr input of all fan-assisted and power vent appliances
(DO NOT COUNT DIRECT VENT APPLIANCES) Input: Btu/hr
Use Fan-Assisted Appliances column in Table E-1 to find
Required Volume Fan Assisted (RVFA) RVFA: ft 3
Total Btu/hr input of all non-fan-assisted appliances Input: Btu/hr
Use Non-Fan-Assisted Appliances column in Table E-1 to find
Required Volume Non-Fan-Assisted (RVNFA) RVNFA: ft 3
Total Required Volume (TRV) = RVFA + RVNFA TRV = + = ft 3
If CAS Volume (from Step 2) is greater than TRV then no outdoor openings are needed.
If CAS Volume (from Step 2) is less than TRV then go to STEP 5.
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 minus Ratio RF = - =
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 (EXCEPT DIRECT VENT) Input: Btu/hr
Combustion Air Opening Area (CAOA):
Total Btu/hr divided by 3000 Btu/hr per in 2 / Btu/hr per in2 = in 2
Step 8: Calculate Minimum CAOA.
Minimum CAOA = CAOA multiplied by RF Minimum CAOA = x = in 2
Step 9: Calculate Combustion Air Opening Diameter (CAOD)
CAOD = 1.13 multiplied by the square root of Minimum CAOA CAOD = 1.13 x Minimum CAOA = in
1If desired, ACH can be determined using ASHRAE calculation or blower door test. Follow procedures in Section 304.
CAOA =
IFGC Appendix E, Table E-1
Residential Combustion Air Required Volume (Required Interior Volume Based on Input Rating of Appliances)
Known Air Infiltration Rate (KAIR) Method (ft 3)
Input Rating Standard Method Fan Assisted Non-Fan-Assisted
(Btu/hr) (ft 3) 1994 1 to Present Pre 1994 2 1994 1 to Present Pre 1994 2
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 1,875 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 10,763
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 16,857 8,438 23,625 11,813
230,000 11,500 17,250 8,625 24,150 12,075
1The 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.
2This 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.
HEAT GAIN COOLING LOAD CALCULATION
Address:17373 Eastwood
Basement
Running Wall
Below Grade
148 X Wall Height:8 =1184 SQUARE FT OF GROSS
WALL BELOW GRADE
-MINUS-
77 SQUARE FT OF GROSS
WINDOWS & DOORS
=EQUALS=
1107 NET WALL BELOW
GRADE
First Floor
RUNNING WALLS:148 x WALL HEIGHT:9 =1332 SQUARE FT OF GROSS
WALL FIRST FLOOR
Second Floor +PLUS+
RUNNING WALLS:148 x WALL HEIGHT:8 =1184 SQUARE FT OF GROSS
WALL SECOND FLOOR
Third Floor +PLUS+
RUNNING WALLS:x WALL HEIGHT:=SQUARE FT OF GROSS
WALL THIRD FLOOR
-MINUS-
218 SQUARE FT OF GROSS
WINDOWS & DOORS
=EQUALS=
2298 NET WALL ABOVE
GRADE
WINDOW & DOORS (SQFT):295 X HTM 32 =9440 BTU
HOUSE INFILTRATION
HOUSE (SQFT X 1.3)
2946 X HTM 1.3 =3827 BTU
NET WALL BELOW GRADE
(FROM ABOVE)
0 X HTM 0 =0 BTU
NET WALL ABOVE GRADE
(FROM ABOVE)
2298 X HTM 2 =4596 BTU
CEILING SQFT 1088 X HTM 1.6 =1740 BTU
FLOOR SQFT 852 X HTM 0 =0 BTU
NUMBER OF
BEDROOMS/PEOPLE
3 X HTM 530 =1590 BTU
KITCHEN & BATH
ALLOWANCE
-----X HTM -----------------=1250 BTU
=SUBTOTAL BTU/HEAT GAIN=
GAINS FROM DUCTWORK
IN CRAWL SPACE
(SUBTOTAL BTU FROM
ABOVE)
X HTM .09 =BTU
IN ATTIC
(SUBTOTAL BTU FROM
ABOVE)
X HTM .13 =BTU
=TOTAL BTU/ HEAT GAIN=
22443 BTU
22443 BTU
HEAT LOSS LOAD CALCULATION
CUSTOMERS
ADDRESS
BASEMENT
Running Wall
Below Grade:
X Wall
Height:
= SQUARE FT OF GROSS
WALL BELOW GRADE
-MINUS-
SQUARE FT OF
GROSS WINDOWS
& DOORS
=EQUALS=
FIRST FLOOR
Running Walls: X Wall Height: = SQUARE FT OF GROSS WALL
FIRST FLOOR
SECOND FLOOR + PLUS+
Running Walls: X Wall Height: = SQUARE FT OF GROSS WALL
SECOND FLOOR
THIRD FLOOR + PLUS+
Running Walls: X Wall Height: = SQUARE FT OF GROSS WALL THIRD FLOOR
-MINUS-
=EQUALS=
NET WALL BELOW
GRADE
SQUARE FT OF GROSS
WINDOWS+DOORS
NET WALL
ABOVE GRADE
WINDOWS + DOORS (SF) X HTM = BTU
INFILTRATION
(Windows + Doors) X 1.3
X HTM = BTU
Net Wall Below Grade
(From Above)
X HTM = BTU
Net Wall above Grade
(From Above)
X HTM = BTU
Ceiling Sq Ft X HTM = BTU
Floor Sq Ft X HTM = BTU
TOTAL
BTU
Builders Associaton of Minnesota version 101014
New Construction Energy Code Compliance Certificate
Place your
logo here
Per R401.3 Certificate. A building certificate shall be posted on or in the electrical distribution
panel.
Date Certificate Posted
Mailing Address of the Dwelling or Dwelling Unit City
17373 Eastwood Lakeville
Name of Residential Contractor MN License NumberRobert McNearney Custom Homes BC 8844
THERMAL ENVELOPE RADON CONTROL SYSTEM
Insulation Location
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Type: Check All That Apply x Passive (No Fan)
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Active (With fan and monometer
or other system monitoring
device)
Location (or future location) of Fan:
Attic
Other Please Describe Here
Below Entire Slab x
Foundation Wall 10 x x
Perimeter of Slab on Grade x
Rim Joist (1st Floor)20 x
Rim Joist (2nd Floor+)20 x
Wall 20 x
Ceiling, flat 49 x
Ceiling, vaulted 49 x
Bay Windows or cantilevered areas x
Floors over unconditioned area 30 x
Describe other insulated areas
Building envelope air tightness:Duct system air tightness:
Windows & Doors Heating or Cooling Ducts Outside Conditioned Spaces
Average U-Factor (excludes skylights and one door) U: 0.28 x Not applicable, all ducts located in conditioned space
Solar Heat Gain Coefficient (SHGC):0.28 R-value
MECHANICAL SYSTEMS Make-up Air Select a Type
Appliances Heating System Domestic WaterHeater Cooling System x Not required per mech. code
Fuel Type Nat.natural gas electric Passive
Manufacturer Lennox A.O. Smith Lennox Powered
Model ML193E ACX13 Interlocked with exhaust device.
Describe:
Rating or Size
Input in
BTUS:66000 Capacity
in Gallons:
50 Output
in Tons:2.5 Other, describe:
Efficiency
AFUE or
HSPF%93%72%SEER
/EER
13 Location of duct or system:
Residential Load Calculation Heating Loss Heating Gain Cooling Load
48111 22443 28053 Cfm's
" round duct OR
MECHANICAL VENTILATION SYSTEM " metal duct
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
Not required per mech. code
Select Type x Passive
Heat Recover Ventilator (HRV) Capacity in cfms:Low: High:Other, describe:
x Energy Recover Ventilator (ERV) Capacity in cfms:Low: 62 High:145 Location of duct or system:
Balanced Ventilation capacity in cfms:
Location of fan(s), describe: Cfm's
Capacity continuous ventilation rate in cfms:6 " round duct OR
x Total ventilation (intermittent + continuous) rate in cfms:120 " metal duct
NEW RESIDENTIAL CONSTRUCTION SWPPP VERIFICATION
This form must be completed and submitted with all new residential permit applications.
New residential building permits WILL NOT be issued without this completed form.
Project Site Address: _____________________________________________________________________
Company Name: _________________________________________________________________________
Primary Contact: _________________________________________________________________________
Phone # (24 hr Contact): ______________________ Email: ______________________________________
Description of Land Disturbing Activity: _____________________________________________________
NPDES Construction Stormwater Permit # C000 ___ ___ ___ ___ ___ or # SUB00 ___ ___ ___ ___ ___
If you are not covered under a NPDES Construction Stormwater Permit administered by the MPCA, an
erosion and sediment control plan MUST be submitted with the residential building permit application.
Contact information of person CERTIFIED to provide weekly onsite erosion and sediment control
inspections and corrective actions:
Name of Person: ________________________________Company: _______________________________
Phone # (24 hr Contact): ______________________ Email: ______________________________________
Entity that Provided Training: ________________________ Certification Expiration Date: ____________
NOTE: Prior to any land-disturbing activity, all erosion and sediment controls must be installed on the project site and on individual lots.
No land disturbing activity may begin until a residential building permit has been issued.
I understand, the above information to be true and I will have read, understood, and accepted all terms and conditions of the National
Pollutant Discharge Elimination System (NPDES) Permit (MN R 100001). The City of Lakeville may issue a STOP WORK ORDER;
withhold building inspections; or, draw on securities/escrows to bring the site into compliance with the NPDES Construction Stormwater
Permit (MN R 100001) or erosion and sediment control plan.
Signature: ________________________________________________ Date:_________________________
Contact the City of Lakeville with questions at erosion@lakevillemn.gov or 952-985-4500
* If awaiting a MPCA permit transfer, provide MPCA proof of transfer submittal e-mail along with this form to
erosion@lakevillemn.gov
“The permittee(s) shall ensure that the individuals are trained by local, state, federal agencies, professional organizations or other entities in erosion prevention, sediment control, permanent Stormwater management and the Minnesota NPDES/SDS Construction Stormwater Permit.” (NPDES Construction Stormwater Permit, MPCA)
“The permittee(s) must ensure that a trained person (as identified in Part III.A.3.a) will routinely inspect the entire construction site at least once every seven (7) days during active construction and within 24 hours after a rainfall event greater than 0.5 inches in 24 hours.” (NPDES Construction Stormwater Permit, MPCA)
*Must provide once assigned by
the MPCA
09/30/19 X
KP