Great Lakes Hydro America - ME

1024 Cenetral Street, Millinocket, ME 4462

Plant Summary Information

Great Lakes Hydro America - ME is ranked #3 out of 161 power plants in Maine in terms of total annual net electricity generation.

Great Lakes Hydro America - ME is comprised of 33 generators and generated 180.6 GWh during the 3-month period between September 2023 to December 2023.

Plant NameGreat Lakes Hydro America - ME
Utility NameGreat Lakes Hydro America LLC
LocationPenobscot County, ME
Initial Operation DateJuly 1917
Last Update Dec 2023
Annual Generation 737.2 GWh
Annual Consumption 2.7 M MMBtu
Ranked #942 out of 11,852 Power Plants Nationwide
Ranked #54 out of 1,371 Water Power Plants Nationwide
Ranked #3 out of 161 Maine Power Plants
Ranked #1 out of 50 Maine Water Power Plants
Fuel Types Water

Map of Great Lakes Hydro America - ME

Full Screen Map

Register Now for Comprehensive Access

Subscribe now to access all power plant data, utility information, FERC EQR data, and more for Great Lakes Hydro America - ME.

Create Your Account Today

Monthly Net Generation for Great Lakes Hydro America - ME

Great Lakes Hydro America - ME Details

Summary Information
Plant NameGreat Lakes Hydro America - ME (54134)
Plant Address1024 Cenetral Street, Millinocket, ME 4462
UtilityGreat Lakes Hydro America LLC (7595)
Latitude, Longitude45.64718, -68.70437
Generation Dates on FileJan 2001 to Dec 2023
Initial Operation DateJuly 1917
Annual Generation 737.2 GWh
Fuel Types Water
 
Federal Energy Regulatory Commission (FERC) Information
FERC Cogeneration StatusNo
FERC Small Power Producer StatusNo
FERC Exempt Wholesale Generator StatusYes
FERC Exempt Wholesale Generator Docket Number02-137-000
Regulatory Information
Regulatory StatusNon-Regulated
NERC RegionNPCC
Balancing AuthorityISO New England Inc. (ISNE)
NAICS CodeUtilities (22)
Sector IPP Non-CHP (2)
Water SourceWest Branch Penobscot River
Ash Impoundment No
Transmission / Distribution OwnerVersant Power (1179) ME
Grid Voltage 115.00 kV
Energy StorageYes

Generator MIH2 Details Operating July 1917

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity5.5 MW
Nameplate Power Factor0.9
Summer Capacity5.3 MW
Winter Capacity5.8 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1917
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MIH3 Details Operating July 1917

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity5.5 MW
Nameplate Power Factor0.9
Summer Capacity5.3 MW
Winter Capacity5.8 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1917
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MIH4 Details Operating July 1917

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity5.1 MW
Nameplate Power Factor0.9
Summer Capacity5.5 MW
Winter Capacity5.5 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1917
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MIH5 Details Operating July 1921

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity5.1 MW
Nameplate Power Factor0.9
Summer Capacity4.9 MW
Winter Capacity4.7 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1921
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MIH6 Details Operating July 1921

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity5.1 MW
Nameplate Power Factor0.9
Summer Capacity4.9 MW
Winter Capacity4.7 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1921
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MIH7 Details Operating July 1921

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity4 MW
Nameplate Power Factor0.9
Summer Capacity5.5 MW
Winter Capacity5.5 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1921
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator DOH2 Details Out of Service July 1925

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity1.3 MW
Nameplate Power Factor0.9
Summer Capacity1.3 MW
Winter Capacity1.3 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOut of Service
First Operation DateJuly 1925
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator DOH3 Details Out of Service July 1925

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity1.3 MW
Nameplate Power Factor0.9
Summer Capacity1.3 MW
Winter Capacity1.3 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOut of Service
First Operation DateJuly 1925
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator DOH4 Details Out of Service July 1925

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity1.8 MW
Nameplate Power Factor0.9
Summer Capacity1.8 MW
Winter Capacity1.8 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOut of Service
First Operation DateJuly 1925
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator DOH8 Details Operating July 1930

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity3 MW
Nameplate Power Factor0.9
Summer Capacity3.4 MW
Winter Capacity3.3 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1930
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator WEH1 Details Operating July 1940

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity4.8 MW
Nameplate Power Factor0.9
Summer Capacity4.6 MW
Winter Capacity4.4 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1940
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator WEH2 Details Operating July 1940

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity4.8 MW
Nameplate Power Factor0.9
Summer Capacity4.6 MW
Winter Capacity4.4 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1940
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator WEH3 Details Operating July 1940

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity4.8 MW
Nameplate Power Factor0.9
Summer Capacity4.6 MW
Winter Capacity4.4 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1940
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator WEH4 Details Operating July 1940

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity4.8 MW
Nameplate Power Factor0.9
Summer Capacity4.6 MW
Winter Capacity4.4 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1940
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator EMH1 Details Operating July 1948

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity1.6 MW
Nameplate Power Factor0.9
Summer Capacity1.5 MW
Winter Capacity1.5 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1948
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator EMH2 Details Operating July 1948

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity1.6 MW
Nameplate Power Factor0.9
Summer Capacity1.5 MW
Winter Capacity1.5 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1948
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator EMH3 Details Operating July 1948

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity1.6 MW
Nameplate Power Factor0.9
Summer Capacity1.5 MW
Winter Capacity1.5 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1948
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator EMH4 Details Operating July 1948

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity1.6 MW
Nameplate Power Factor0.9
Summer Capacity1.5 MW
Winter Capacity1.5 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1948
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator EMH5 Details Operating July 1948

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity1.6 MW
Nameplate Power Factor0.9
Summer Capacity1.5 MW
Winter Capacity1.5 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1948
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator EMH6 Details Operating July 1948

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity1.6 MW
Nameplate Power Factor0.9
Summer Capacity1.5 MW
Winter Capacity1.5 MW
Minimum Load0.2 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1948
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MCH1 Details Operating July 1953

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity12.2 MW
Nameplate Power Factor0.9
Summer Capacity11.6 MW
Winter Capacity11.2 MW
Minimum Load8 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1953
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MCH2 Details Operating July 1953

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity12.2 MW
Nameplate Power Factor0.9
Summer Capacity11.6 MW
Winter Capacity11.2 MW
Minimum Load8 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1953
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MCH3 Details Operating July 1967

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity13.2 MW
Nameplate Power Factor0.9
Summer Capacity12.5 MW
Winter Capacity12.1 MW
Minimum Load9 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1967
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator DOH6 Details Operating July 1975

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity4.1 MW
Nameplate Power Factor0.9
Summer Capacity3.9 MW
Winter Capacity3.8 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1975
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator DOH7 Details Operating July 1975

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity4.1 MW
Nameplate Power Factor0.9
Summer Capacity3.9 MW
Winter Capacity3.8 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1975
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator NOH1 Details Operating July 1986

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity3.2 MW
Nameplate Power Factor0.9
Summer Capacity3 MW
Winter Capacity2.9 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1986
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator NOH2 Details Operating July 1986

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity3.2 MW
Nameplate Power Factor0.9
Summer Capacity3 MW
Winter Capacity2.9 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1986
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator NOH3 Details Operating July 1986

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity3.2 MW
Nameplate Power Factor0.9
Summer Capacity3 MW
Winter Capacity2.9 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1986
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MIH8 Details Operating July 1987

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity5.4 MW
Nameplate Power Factor0.9
Summer Capacity5.1 MW
Winter Capacity5 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1987
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator MIHI Details Operating July 1987

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity5.4 MW
Nameplate Power Factor0.9
Summer Capacity5.1 MW
Winter Capacity5 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1987
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator DOH5 Details Operating July 1988

TechnologyConventional Hydroelectric
Prime MoverHydroelectric Turbine
OwnershipSingle Owner
Nameplate Capacity5.3 MW
Nameplate Power Factor0.9
Summer Capacity5 MW
Winter Capacity4.9 MW
Minimum Load0.5 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateJuly 1988
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceWater
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Multiple FuelsNo

Generator BES1 Details Operating December 2020

TechnologyBatteries
Prime MoverBattery
OwnershipSingle Owner
RTO ISO LMP Node Designation69256
RTO ISO Location Designation For Reporting Wholesale Sales Data69256
Nameplate Capacity10 MW
Nameplate Power Factor0.95
Summer Capacity9.4 MW
Winter Capacity9.4 MW
Minimum Load0.1 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateDecember 2020
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceElectricity used for energy storage
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Energy Storage Details
Nameplate Energy Capacity MWH10
Maximum Charge Rate4 MW
Maximum Discharge Rate5 MW
Storage TechnologyLIB
Nameplate Reactive Power Rating18.2
Storage Enclosure TypeCS
ArbitrageP
Frequency RegulationYes
Load FollowingYes
Ramping Spinning ReserveYes
Voltage Or Reactive Power SupportYes
IndependentYes
Direct Support Of Another UnitNo
Support T D AssetNo

Generator BES2 Details Operating December 2020

TechnologyBatteries
Prime MoverBattery
OwnershipSingle Owner
RTO ISO LMP Node Designation69256
RTO ISO Location Designation For Reporting Wholesale Sales Data69256
Nameplate Capacity10 MW
Nameplate Power Factor0.95
Summer Capacity9.4 MW
Winter Capacity9.4 MW
Minimum Load0.1 MW
Uprate/Derate Completed No
StatusOperating
First Operation DateDecember 2020
Combined Heat & Power No
Sector NameIPP Non-CHP (2)
Energy SourceElectricity used for energy storage
Solid Fuel Gasification No
Carbon Capture TechnologyNo
Time From Cold Shutdown To Full Load10M
Energy Storage Details
Nameplate Energy Capacity MWH10
Maximum Charge Rate4 MW
Maximum Discharge Rate5 MW
Storage TechnologyLIB
Nameplate Reactive Power Rating18.2
Storage Enclosure TypeCS
ArbitrageP
Frequency RegulationYes
Load FollowingYes
Ramping Spinning ReserveYes
Voltage Or Reactive Power SupportYes
IndependentYes
Direct Support Of Another UnitNo
Support T D AssetNo

Great Lakes Hydro America - ME 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
#44YellowtailHardin, MT846.0 GWh
#45KeokukKeokuk, IA834.9 GWh
#46Cabinet GorgeClark Fork, ID815.7 GWh
#47Fontana DamFontana Dam, NC813.6 GWh
#48Watts Bar HydroSpring City, TN812.4 GWh
#49Selis Ksanka QlispePolson, MT804.8 GWh
#50Round ButteMadras, OR780.2 GWh
#51Big Bend DamChamberlain, SD770.5 GWh
#52Bull ShoalsMountain Home, AR750.5 GWh
#53Big Creek 3Auberry, CA745.8 GWh
#55Gavins PointCrofton, NE715.3 GWh
#56Sidney A Murray Jr HydroelectricVidalia, LA707.5 GWh
#57Fort PeckFort Peck, MT701.2 GWh
#58GorgeRockport, WA678.1 GWh
#59Fort LoudounLenoir City, TN676.5 GWh
#60ChickamaugaChattanooga, TN657.3 GWh
#61Hungry HorseColumbia Falls, MT650.2 GWh
#62J Strom ThurmondClarks Hill, SC632.4 GWh
#63FolsomFolsom, CA626.4 GWh
#64PoeStorrie, CA589.5 GWh

Nearby Power Plants

Below are closest 20 power plants surrounding Great Lakes Hydro America - ME.

Plant NamePlant LocationAnnual GenerationDistance
Brassua Hydroelectric ProjectRockwood, ME19.9 GWh53.5 mi
Corkwood Solar (CSG)Howland, ME344.0 MWh26.9 mi
Dynamic Corinth (CSG)Corinth, ME4.0 GWh46.6 mi
Indeck West Enfield Energy CenterWest Enfield, ME13.5 GWh27.4 mi
Medway HydroMedway, ME27.5 GWh8.2 mi
Milford Hydro StationMilford, ME53.0 GWh48.8 mi
Milo CSGMilo, ME6.0 GWh31.7 mi
Milo PV - BD Solar 1 LLCMilo, ME25.2 GWh29.7 mi
Oakfield Wind ProjectCity of Oakfield, ME315.4 GWh39 mi
Orono BOrono, ME25.5 GWh52.7 mi
Orono Hydro StationOrono, ME11.6 GWh53 mi
Passadumkeag Windpark LLCGreenbush, ME121.1 GWh46.5 mi
Pumpkin HillLowell, ME5.5 GWh33.9 mi
Red Shield Envir Old Town FacilityOld Town, ME66.3 GWh50.5 mi
Rollins Wind ProjectWinn Village, ME132.2 GWh26.1 mi
Stetson Wind IDanforth, ME106.6 GWh36.2 mi
Stetson Wind IIDanforth, ME45.7 GWh35.5 mi
Stillwater BOld Town, ME12.8 GWh50.8 mi
Stillwater Hydro StationStillwater, ME12.1 GWh51 mi
West Enfield HydroWest Enfield, ME100.4 GWh27.6 mi