Climate and water resource change impacts and adaptation potential for US power supply

Source: Nature.com

  • 1.

    Ventyx Power Plant Database (National Renewable Energy Laboratory, ).

  • 2.

    Energy Information Administration Electricity Generation Dataset Form EIA-923 (accessed 2016).

  • 3.

    Macknick, J., Newmark, R., Heath, G. & Hallett, K. C. Operational water consumption and withdrawal factors for electricity generating technologies: a review of existing literature. Environ. Res. Lett. 7, 045802 (2012).

  • 4.

    Feeley, T. J. et al. Water: a critical resource in the thermoelectric power industry. Energy 33, 1–11 (2008).

  • 5.

    Carter, N. T. Energy’s Water Demand: Trends, Vulnerabilities, and Management (Congressional Research Service, 2008).

  • 6.

    Averyt, K. et al. Freshwater Use by US Power Plants: Electricity’s Thirst for a Precious Mresource, A Report of the Energy and Water in a Warming, World Initiative (Union of Concerned Scientists, 2008).

  • 7.

    The Water-Energy Nexus: Challenges and Opportunities (US Department of Energy, 2008).

  • 8.

    van Vliet, M. T. H., Wiberg, D., Leduc, S. & Riahi, K. Power-generation system vulnerability and adaptation to changes in climate and water resources. Nat. Clim. Change 6, 375–380 (2016).

  • 9.

    Bartos, M. D. & Chester, M. V. Impacts of climate change on electric power supply in the Western United States. Nat. Clim. Change 5, 748–752 (2015).

  • 10.

    Forster, H. & Lillenstam, J. Modeling thermoelectric power generation in view of climate change. Reg. Environ. Change 10, 327–338 (2010).

  • 11.

    Miara, A., Vörösmarty, C. J., Stewart, R., Wollheim, W. & Rosenzweig, B. Riverine ecosystem services and the thermoelectric sector: strategic issues facing the northeastern United States. Environ. Res. Lett. 8, 025017 (2013).

  • 12.

    Summer Reliability Assessment (North American Electric Reliability Corporation, 2013).

  • 13.

    Fay, J. A. & Golomb, D. S. Energy and the Environment: Scientific and Technological Principles 2nd edn (Oxford Univ. Press, 2013).

  • 14.

    Micheletti, W. C. & Burns, J. M. Emerging Issues and Needs in Power Plant Cooling Systems (accessed 2012).

  • 15.

    McCall, J., Macknick, J. & Hillman, D. Water-Related Power Plant Curtailments: An Overview of Incidents and Contributing Factors NREL Technical Report NREL/TP-6A20-67084 (National Renewable Energy Laboratory (NREL), 2016).

  • 16.

    Scanlon, B. R., Duncan, I. & Reedy, R. C. Drought and the water-energy nexus in Texas. Environ. Res. Lett. 8, 045033 (2013).

  • 17.

    Melillo, J. M., Richmond, T. (T. C.) & Yohe, G. W. (eds) Climate Change Impacts in the United States: The Third National Climate Assessment 841 (US Global Change Research Program, 2013); http://dx.doi.org/10.7930/J0Z31WJ2

  • 18.

    Temperature, Water Quality Standards Criteria Summaries: Compilation of State/Federal Criteria (United States Environmental Protection Agency (EPA), 2013).

  • 19.

    Leeper, S. A. Wet Cooling Towers: Rule of Thumb (US Department of Energy, Idaho National Engineering Laboratory, 2013).

  • 20.

    Roy, S. B. et al. Projecting water withdrawal and supply for future decades in the US under climate change scenarios. Environ. Sci. Technol. 46, 2545–2556 (2012).

  • 21.

    van Vliet, M. T. H. et al. Vulnerability of US and European electricity supply to climate change. Nat. Clim. Change 2, 676–681 (2012).

  • 22.

    Schaeffe, R. et al. Energy sector vulnerability to climate change: a review. Energy 38, 1–12 (2012).

  • 23.

    Quadrennial Technology Review, An Assessment of Energy Technologies and Research Opportunities (US Department of Energy, 2012).

  • 24.

    Stewart, R. J. et al. Horizontal cooling towers: riverine ecosystem services and the fate of thermoelectric heat in the contemporary northeast US. Environ. Res. Lett. 8, 025010 (2013).

  • 25.

    Miara, A. & Vörösmarty, C. J. A dynamic model to assess tradeoffs in power production and riverine ecosystem protection. Environ. Sci. Process. Impacts 15, 1113e26 (2013).

  • 26.

    Hempel, S., Frieler, K., Warszawski, L., Schewe, J. & Piontek, F. A trend-preserving bias correction—the ISI-MIP approach. Earth Syst. Dynam. 4, 219–236 (2013).

  • 27.

    Air Markets Program Data (Environmental Protection Agency, accessed 2016).

  • 28.

    Natural Gas Infrastructure Implications of Increased Demands from the Electric Power Sector (US Department of Energy, 2013).

  • 29.

    Cohen, S. M., Macknick, J., Averyt, K. & Meldrum, J. Modeling Climate-Water Impacts on Electricity Sector Capacity Expansion (National Renewable Energy Laboratory, 2013).

  • 30.

    Macknick, J. et al. Water and Climate Impacts on Power System Operations: The Importance of Cooling Systems and Demand Response Measures NREL Technical Report (National Renewable Energy Laboratory (NREL), 2016).

  • 31.

    USGS Water Data for the Nation (US Geological Survey, accessed 2016); https://waterdata.usgs.gov/nwis

  • 32.

    National Pollutant Discharge Elimination System—Final Regulations To Establish Requirements for Cooling Water Intake Structures at Existing Facilities and Amend Requirements at Phase I Facilities; Final Rule (United States Environmental Protection Agency (EPA), 2013).

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