Open Access. Powered by Scholars. Published by Universities.®
- Keyword
-
- Hydroelectric power plants (4)
- Maine (4)
- Aroostook County (3)
- Dams (3)
- Energy policy (3)
-
- Water resources development (3)
- Electric lines (2)
- Environmental impact statements (2)
- Saint John River Valley (Me. and Quebec) (2)
- Saint John River Valley (Me. and Québec) (2)
- Aerial photogrammetry (1)
- Aroostook (1)
- Design and construction (1)
- Earth sciences (1)
- Ecology (1)
- Environmental impact analysis (1)
- Geological surveys (1)
- Geology (1)
- Power resources (1)
- Saint John River (Me. and N.B.) (1)
- Saint John River Watershed (Me. and N.B.) (1)
- Structural (1)
Articles 1 - 7 of 7
Full-Text Articles in Architecture
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.
An Energy Strategy For New England : Objectives And Implementation, Development Sciences, Inc., New England Regional Commission
An Energy Strategy For New England : Objectives And Implementation, Development Sciences, Inc., New England Regional Commission
Dickey-Lincoln School Lakes Project
This report is a product of the New England Regional Commission's Energy Research and Policy Formulation Program. The goal of the Energy Program is to supply the members of the New England Regional Commission, which is comprised of the six New England Governors and a Federal Co-chairman appointed by the President, with reliable baseline information on New England's energy requirements and vulnerability, and to provide the Governors and the region with viable energy policy options and recommendations to guide New England's energy future.
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 …
Terrestrial Ecology Of The Dickey-Lincoln School Lakes Project, Corps Of Engineers, New England Division, Environmental Research & Technology, Inc
Terrestrial Ecology Of The Dickey-Lincoln School Lakes Project, Corps Of Engineers, New England Division, Environmental Research & Technology, Inc
Dickey-Lincoln School Lakes Project
This introduction of the St. John River watershed is situated in a transitional zone between the Boreal Forest Formation and the Eastern Deciduous Forest Formation. Second-growth forests representative of these two ecosystems cover extensive areas of the project site. The boreal forest forms a broad transcontinental belt in northern North America and Eurasia, with southern montane extensions. This northern forest is characterized by evergreen, coniferous trees, predominately spruce-fir The eastern deciduous forest, composed of broad-leaved hardwoods, extends throughout the eastern United States except Florida (Dasmann, 1968; Oosting, 1956).
Use Of Remote Sensing To Quantify Construction Material And To Define Geologic Lineations : Dickey-Lincoln School Lakes Project, Maine, H. L. Mckim, C. J. Merry
Use Of Remote Sensing To Quantify Construction Material And To Define Geologic Lineations : Dickey-Lincoln School Lakes Project, Maine, H. L. Mckim, C. J. Merry
Dickey-Lincoln School Lakes Project
This report contains Appendixes A and B of Special Report 242, use of remote sensing to quantify construction material and to define geologic lineations.
Water Resources Development Project, Saint John River Basin : Dickey-Lincoln School Lakes, Maine, U.S.A. And Quebec, Canada : Design Memorandum No. 2 : Hydrology And Hydraulic Analysis, Section Iv - Lincoln School Dam-Spillway Design Flood, Department Of The Army, New England Division, Corps Of Engineers
Water Resources Development Project, Saint John River Basin : Dickey-Lincoln School Lakes, Maine, U.S.A. And Quebec, Canada : Design Memorandum No. 2 : Hydrology And Hydraulic Analysis, Section Iv - Lincoln School Dam-Spillway Design Flood, Department Of The Army, New England Division, Corps Of Engineers
Dickey-Lincoln School Lakes Project
The first of four sections comprising Design Memo-randum No. 2. The other sections are: II - Dickey Dam - Spillway Design Flood, III - Lincoln School Dam - Spillway Design Flood and IV - Flood Analysis and Reservoir Regulation. la section I, hydro-logic studies will be confined generally to the drainage area of the Saint John River above the gaging station at Fort Kent, Maine. The purpose of section I is to present the climatological and streamflow data for the Saint John River above Fort Kent in order to establish hydrologic criteria for the design of the Dickey and Lincoln …