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Revised Draft Impact Statement Issued For Dickey-Lincoln, New England Division, United States Army Corps Of Engineers
Revised Draft Impact Statement Issued For Dickey-Lincoln, New England Division, United States Army Corps Of Engineers
Dickey-Lincoln School Lakes Project
The revised draft combines data previously published in two separate impact statements prepared by the Corps relating to the dams, reservoirs and Power Plants and by the U. S. Department of Energy for transmission facilities to link the St. John River development to the New England power grid.
Draft Environmental Impact Statement : Dickey-Lincoln School Lakes Transmission Project, United States Department Of Energy
Draft Environmental Impact Statement : Dickey-Lincoln School Lakes Transmission Project, United States Department Of Energy
Dickey-Lincoln School Lakes Project
This draft environmental impact statement (EIS) will describe the environmental impacts of transmission plans of the Department of Energy (DOE) for the proposed Dickey-Lincoln School Lakes Project. Electric power produced by the project is to be integrated into the New England electric system if the project is constructed.
Transmission Reconnaissance Study : Dickey-Lincoln School Lakes Project, United States Department Of Interior
Transmission Reconnaissance Study : Dickey-Lincoln School Lakes Project, United States Department Of Interior
Dickey-Lincoln School Lakes Project
Two dams are proposed on the St. John River in northern Maine: Dickey, a high earth filled dam immediately above the confluence of the Allagash with the St. John, will have an installed generating capacity of 760 MW; and Lincoln School Dam, 11 miles downstream, a capacity of 70 MW. These dams are scheduled for completion during the mid 1980's. The U.S. Corps of Engineers, New England Division, has been allocated funds to design the project and prepare their own environmental impact statement. This report (Transmission Reconnaissance Studies) discusses alternative transmission facilities needed to connect the project with the New …
Recommendations Of Alternative System Plans And Transmission Corridors For The Dickey/Lincoln School Hydroelectric Project, Vtn Environmental Sciences (Firm), Interior
Recommendations Of Alternative System Plans And Transmission Corridors For The Dickey/Lincoln School Hydroelectric Project, Vtn Environmental Sciences (Firm), Interior
Dickey-Lincoln School Lakes Project
This second volume of the Assessment of Alternative Power Transmission Corri-dors related to the Dickey Lincoln/School Hydroelectric Project, contains all relevant background materials to support the mapping and analysis of en-vironmental resource information. Narrative explaining what information was evaluated and the sources and reasons for its consideration are integral to this assessment.
Fact Sheet : Dickey-Lincoln School Lakes, Maine, New England Division, United States Army Corps Of Engineers
Fact Sheet : Dickey-Lincoln School Lakes, Maine, New England Division, United States Army Corps Of Engineers
Dickey-Lincoln School Lakes Project
The purpose of the proposed Dickey-Lincoln School Lakes Hydroelectric Project is to convert the natural energy of the upper St. John River in northern Maine for use as a source of electricity to meet future needs of New England consumers.
Transmission Planning Summary : Dickey-Lincoln School Lakes Project Transmission Studies, United States Department Of Interior
Transmission Planning Summary : Dickey-Lincoln School Lakes Project Transmission Studies, United States Department Of Interior
Dickey-Lincoln School Lakes Project
This report summarizes the results of system planning, environmental, and location studies for transmission facilities associated with the proposed Dickey-Lincoln School Lakes Project in northern Maine. The studies recommend the construction of two 345-kV transmission circuits from a substation near the project along a route through western Maine into northern New Hampshire and Vermont. The plan will integrate the power produced by the project into the New England Power Pool Transmission System. Five alternate integration plans were identified and studied. Of the five plans, the recommended plan, which calls for the lines to be suspended from a single row of …