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Plant-level characteristics could aid in the assessment of water-related threats to the electric power sector

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  • Tidwell, Vincent C.
  • Gunda, Thushara
  • Gayoso, Natalie

Abstract

Water is a necessary resource for thermoelectric power generation. Extreme conditions (e.g., droughts and floods) threaten both the quantity and quality of power plant water supply as well as disrupt wastewater discharges back to the environment. Changing climate conditions and water use regimes have prompted numerous assessments exploring the growing threat water poses to the electric power industry. However, lacking from public sources are plant-level data potentially important to such assessments. To better understand this data gap, a semi-structured interview approach was employed with a subset of (coal-fired) power plant owners and operators to characterize the modes by which extreme conditions impact their plant’s operations and the measures they have implemented to mitigate water related threats. Interviews engaged 69 power plants, characterized by a range of capacities, cooling types, and water sources. Twenty-five unique modes of impact were identified across the 69 plants, with 96% of plants reported taking some deliberate action to mitigate water-related threats; thirty-four different adaptive measures were recorded. Results here are intended to raise awareness for this potentially important data gap, which could influence the accuracy of projections concerning individual power plant operations under extreme climate conditions supporting grid reliability and long-term system planning exercises.

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  • Tidwell, Vincent C. & Gunda, Thushara & Gayoso, Natalie, 2021. "Plant-level characteristics could aid in the assessment of water-related threats to the electric power sector," Applied Energy, Elsevier, vol. 282(PA).
    • Handle: RePEc:eee:appene:v:282:y:2021:i:pa:s030626192031566x
    DOI: 10.1016/j.apenergy.2020.116161
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    1. Jennifer Cronin & Gabrial Anandarajah & Olivier Dessens, 2018. "Climate change impacts on the energy system: a review of trends and gaps," Climatic Change, Springer, vol. 151(2), pages 79-93, November.
    2. Koch, Hagen & Vögele, Stefan, 2009. "Dynamic modelling of water demand, water availability and adaptation strategies for power plants to global change," Ecological Economics, Elsevier, vol. 68(7), pages 2031-2039, May.
    3. Vignesh Sridharan & Oliver Broad & Abhishek Shivakumar & Mark Howells & Brent Boehlert & David G. Groves & H-Holger Rogner & Constantinos Taliotis & James E. Neumann & Kenneth M. Strzepek & Robert Lem, 2019. "Resilience of the Eastern African electricity sector to climate driven changes in hydropower generation," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
    4. Tidwell, Vincent C. & Macknick, Jordan & Zemlick, Katie & Sanchez, Jasmine & Woldeyesus, Tibebe, 2014. "Transitioning to zero freshwater withdrawal in the U.S. for thermoelectric generation," Applied Energy, Elsevier, vol. 131(C), pages 508-516.
    5. Feeley, Thomas J. & Skone, Timothy J. & Stiegel, Gary J. & McNemar, Andrea & Nemeth, Michael & Schimmoller, Brian & Murphy, James T. & Manfredo, Lynn, 2008. "Water: A critical resource in the thermoelectric power industry," Energy, Elsevier, vol. 33(1), pages 1-11.
    6. DeNooyer, Tyler A. & Peschel, Joshua M. & Zhang, Zhenxing & Stillwell, Ashlynn S., 2016. "Integrating water resources and power generation: The energy–water nexus in Illinois," Applied Energy, Elsevier, vol. 162(C), pages 363-371.
    7. Ernst, Kathleen M. & Preston, Benjamin L., 2017. "Adaptation opportunities and constraints in coupled systems: Evidence from the U.S. energy-water nexus," Environmental Science & Policy, Elsevier, vol. 70(C), pages 38-45.
    8. Zhaoqing Yang & Taiping Wang & Ruby Leung & Kathy Hibbard & Tony Janetos & Ian Kraucunas & Jennie Rice & Benjamin Preston & Tom Wilbanks, 2014. "A modeling study of coastal inundation induced by storm surge, sea-level rise, and subsidence in the Gulf of Mexico," Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards, Springer;International Society for the Prevention and Mitigation of Natural Hazards, vol. 71(3), pages 1771-1794, April.
    9. Arango-Aramburo, Santiago & Turner, Sean W.D. & Daenzer, Kathryn & Ríos-Ocampo, Juan Pablo & Hejazi, Mohamad I. & Kober, Tom & Álvarez-Espinosa, Andrés C. & Romero-Otalora, Germán D. & van der Zwaan, , 2019. "Climate impacts on hydropower in Colombia: A multi-model assessment of power sector adaptation pathways," Energy Policy, Elsevier, vol. 128(C), pages 179-188.
    10. Lu Liu & Mohamad Hejazi & Hongyi Li & Barton Forman & Xiao Zhang, 2017. "Vulnerability of US thermoelectric power generation to climate change when incorporating state-level environmental regulations," Nature Energy, Nature, vol. 2(8), pages 1-5, August.
    11. Byman Hamududu & Aanund Killingtveit, 2012. "Assessing Climate Change Impacts on Global Hydropower," Energies, MDPI, vol. 5(2), pages 1-18, February.
    12. Matthew D. Bartos & Mikhail V. Chester, 2015. "Impacts of climate change on electric power supply in the Western United States," Nature Climate Change, Nature, vol. 5(8), pages 748-752, August.
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