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Integrating Energy and Water Resources Decision Making

Year Awarded: 2009
Awarded: $207,000
Team Leader:  Great Lakes Commission
Tel: 734-665-9135
Email: vpebbles@glc.org

This team explored how integration of ecological factors into the planning and siting of power production facilities could minimize impacts on aquatic habitats and resources. The team identified watersheds vulnerable to impacts from power generation; developed an interactive energy-water nexus map of the Great Lakes; created a model to predict future water resource impacts from changes in the energy mix; and completed a policy analysis on energy markets, energy planning, and facility siting and operations.
The project resulted in a number of important products (links can be found below under Project Files):

  • List of most vulnerable watersheds in the basin based on water availability and hydrologic and ecosystem sensitivities.
  • An interactive, energy-water nexus map of the Great Lakes (see http://erie.glin.net/glew/)
  • A first-of-its-kind model (developed by Sandia National Laboratories and modified for use in the Great Lakes basin) that predicts the long-term water resource impacts associated with changes in the energy mix.
  • A policy analysis on the current policy framework for energy markets, integrated energy planning, and facility siting and design.
  • A report documenting the results of the team’s work titled, Integrating Energy and Water Resources Decision Making in the Great Lakes Basin, an Examination of Future Power Generation Scenarios and Water Resource Impacts.

The work has drawn attention to those watersheds sensitive to water withdrawals, and has resulted in a planning tool to better plan for, and manage, water use by the power production sectors. The results will enable energy planners to make better decisions about the future of energy production within their jurisdiction or watershed(s). This work could better protect rare and unique aquatic habitats from impacts associated with specific power generation technologies. It could also reduce water consumption from the power production sectors in areas sensitive to large-scale water withdrawals.