Edison Sault

725 E. Portage Ave., Sault Ste. Marie, MI 49783

Plant Summary Information

Edison Sault is ranked #46 out of 256 power plants in Michigan in terms of total annual net electricity generation.

Edison Sault is comprised of 73 generators and generated 52.4 GWh during the 3-month period between September 2023 to December 2023.

Plant NameEdison Sault
Utility NameCloverland Electric Co-op
LocationChippewa County, MI
Initial Operation DateJuly 1901
Last Update Dec 2023
Annual Generation 233.6 GWh
Annual Consumption 859.6 k MMBtu
Ranked #2,132 out of 11,852 Power Plants Nationwide
Ranked #194 out of 1,371 Water Power Plants Nationwide
Ranked #46 out of 256 Michigan Power Plants
Ranked #1 out of 51 Michigan Water Power Plants
Fuel Types Water

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Monthly Net Generation for Edison Sault

Edison Sault Details

Summary Information
Plant NameEdison Sault (1751)
Plant Address725 E. Portage Ave., Sault Ste. Marie, MI 49783
UtilityCloverland Electric Co-op (3828)
Latitude, Longitude46.4974, -84.332
Generation Dates on FileJan 2001 to Dec 2023
Initial Operation DateJuly 1901
Annual Generation 233.6 GWh
Fuel Types Water
 
Federal Energy Regulatory Commission (FERC) Information
FERC Cogeneration StatusNo
FERC Small Power Producer StatusNo
FERC Exempt Wholesale Generator StatusNo
Regulatory Information
Regulatory StatusRegulated
NERC RegionRFC
Balancing AuthorityMidcontinent Independent Transmission System Operator, Inc.. (MISO)
NAICS CodeUtilities (22)
Sector Electric Utility (1)
Water SourceLake Superior/ St. Marys River
Ash Impoundment No
Transmission / Distribution OwnerAmerican Transmission Co (659) WI
Grid Voltage 69.00 kV
Energy StorageNo

Generator 41 Details Operating July 1901

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1901
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 42 Details Operating July 1901

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1901
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 45 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 62 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 63 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 64 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 65 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 66 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 67 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 68 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 69 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 70 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 71 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 72 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 73 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 74 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 75 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 76 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 77 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 78 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 79 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 80 Details Operating July 1916

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.5 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1916
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 10 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M

Generator 11 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 12 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 13 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 14 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 15 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 16 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 17 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 18 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 19 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 20 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 21 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 22 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 23 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 24 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 25 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 26 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 27 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 28 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 29 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 30 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 31 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 32 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 33 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 34 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 35 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 36 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 37 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 38 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 39 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 40 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 46 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.4 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 47 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.4 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 48 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.4 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 49 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.4 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 50 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.4 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 51 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.4 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 52 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 53 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 54 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 55 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 56 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 57 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 58 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 59 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 6 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 60 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 61 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 7 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 8 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Generator 9 Details Operating July 1963

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
RTO ISO LMP Node DesignationMIUP.CLVHDRTN1
Nameplate Capacity0.6 MW
Nameplate Power Factor0.9
Summer Capacity0.4 MW
Winter Capacity0.3 MW
Minimum Load0.4 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1963
Combined Heat & Power No
Sector NameElectric Utility (1)
Energy SourceWater
Time From Cold Shutdown To Full Load10M

Edison Sault Plant Owners

Owner NameAddressGeneratorOwnership
We couldn't locate any owners for this plant

Power Plants with Similar Net Generation

Power plants with a similar annual net generation from Water.

RankPlant NamePlant LocationAnnual Generation
#184ThomsonCarlton, MN258.7 GWh
#185OzarkOzark, AR253.1 GWh
#186Spier FallsGansevoort, NY252.9 GWh
#187ExchequerSnelling, CA250.6 GWh
#188JefferiesMoncks Corner, SC247.6 GWh
#189Tiger CreekPioneer, CA246.0 GWh
#190CochraneGreat Falls, MT244.7 GWh
#191Hudson Falls Hydroelectric ProjectSouth Glens Falls, NY242.3 GWh
#192Blakely MountainRoyal, AR234.9 GWh
#193Judge F CarrFrench Gulch, CA234.3 GWh
#195Lewis Smith DamJasper, AL233.4 GWh
#196WoodleafForbestown, CA231.6 GWh
#197Toledo BendBurkville, TX231.5 GWh
#198Harry TrumanWarsaw, MO230.9 GWh
#199PensacolaLangley, OK228.0 GWh
#200J WoodruffChattahoochee, FL224.2 GWh
#201Hiwassee DamMurphy, NC224.0 GWh
#202Thurlow DamTallassee, AL222.2 GWh
#203Lost CreekTrail, OR221.3 GWh
#204Willow Island Hydroelectric PlantWillow Island, WV220.4 GWh

Nearby Power Plants

Below are closest 20 power plants surrounding Edison Sault.

Plant NamePlant LocationAnnual GenerationDistance
Alpena Cement PlantAlpena, MI176.1 GWh108.2 mi
Alpine Power PlantElmira, MI816.4 GWh101.9 mi
Bay Windpower IMackinaw City, MI1.8 GWh54.2 mi
Beaver IslandBeaver Island, MI71.0 MWh78 mi
CheboyganCheboygan, MI5.7 GWh59.8 mi
DafterDafter, MI2.4 GWh9.4 mi
Decorative Panels IntlAlpena, MI42.9 GWh108.4 mi
DetourDetour, MI592.0 MWh40.9 mi
Four Mile Hydropower ProjectAlpena, MI9.6 GWh104.9 mi
Gaylord - WolverineGaylord, MI10.1 GWh104.8 mi
KleberOnaway, MI4.8 GWh76.4 mi
Lightfoot Solar, LLCLuzerne, MI548.0 MWh128.8 mi
Livingston Generating StationGaylord, MI10.1 GWh103.2 mi
ManistiqueManistique, MI977.0 MWh99.3 mi
MioMio, MI10.0 GWh127.2 mi
Ninth Street Hydropower ProjectAlpena, MI6.8 GWh107.5 mi
Norway Point Hydropower ProjectAlpena, MI14.0 GWh104 mi
Pickford SolarPickford, MI9.1 GWh21.3 mi
Saint Marys FallsSault Ste. Marie, MI162.7 GWh1 mi
TowerTower, MI195.0 MWh78.4 mi