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Improving the technical, environmental and social performance of wind energy systems using biomass-based energy storage

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  • Denholm, Paul

Abstract

A completely renewable baseload electricity generation system is proposed by combining wind energy, compressed air energy storage, and biomass gasification. This system can eliminate problems associated with wind intermittency and provide a source of electrical energy functionally equivalent to a large fossil or nuclear power plant. Compressed air energy storage (CAES) can be economically deployed in the Midwestern US, an area with significant low-cost wind resources. CAES systems require a combustible fuel, typically natural gas, which results in fuel price risk and greenhouse gas emissions. Replacing natural gas with synfuel derived from biomass gasification eliminates the use of fossil fuels, virtually eliminating net CO2 emissions from the system. In addition, by deriving energy completely from farm sources, this type of system may reduce some opposition to long distance transmission lines in rural areas, which may be an obstacle to large-scale wind deployment.

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  • Denholm, Paul, 2006. "Improving the technical, environmental and social performance of wind energy systems using biomass-based energy storage," Renewable Energy, Elsevier, vol. 31(9), pages 1355-1370.
    • Handle: RePEc:eee:renene:v:31:y:2006:i:9:p:1355-1370
    DOI: 10.1016/j.renene.2005.07.001
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    Cited by:

    1. Gallo, A.B. & Simões-Moreira, J.R. & Costa, H.K.M. & Santos, M.M. & Moutinho dos Santos, E., 2016. "Energy storage in the energy transition context: A technology review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 65(C), pages 800-822.
    2. Denholm, Paul & Sioshansi, Ramteen, 2009. "The value of compressed air energy storage with wind in transmission-constrained electric power systems," Energy Policy, Elsevier, vol. 37(8), pages 3149-3158, August.
    3. Arabkoohsar, A. & Machado, L. & Koury, R.N.N., 2016. "Operation analysis of a photovoltaic plant integrated with a compressed air energy storage system and a city gate station," Energy, Elsevier, vol. 98(C), pages 78-91.
    4. Fallahi, Farhad & Nick, Mostafa & Riahy, Gholam H. & Hosseinian, Seyed Hossein & Doroudi, Aref, 2014. "The value of energy storage in optimal non-firm wind capacity connection to power systems," Renewable Energy, Elsevier, vol. 64(C), pages 34-42.
    5. Greenblatt, Jeffery B. & Succar, Samir & Denkenberger, David C. & Williams, Robert H. & Socolow, Robert H., 2007. "Baseload wind energy: modeling the competition between gas turbines and compressed air energy storage for supplemental generation," Energy Policy, Elsevier, vol. 35(3), pages 1474-1492, March.
    6. Lund, Peter D. & Lindgren, Juuso & Mikkola, Jani & Salpakari, Jyri, 2015. "Review of energy system flexibility measures to enable high levels of variable renewable electricity," Renewable and Sustainable Energy Reviews, Elsevier, vol. 45(C), pages 785-807.
    7. Blarke, Morten B., 2012. "Towards an intermittency-friendly energy system: Comparing electric boilers and heat pumps in distributed cogeneration," Applied Energy, Elsevier, vol. 91(1), pages 349-365.
    8. Ahmed, Asam & Sutrisno, Setiadi Wicaksono & You, Siming, 2020. "A two-stage multi-criteria analysis method for planning renewable energy use and carbon saving," Energy, Elsevier, vol. 199(C).
    9. Salgi, Georges & Lund, Henrik, 2008. "System behaviour of compressed-air energy-storage in Denmark with a high penetration of renewable energy sources," Applied Energy, Elsevier, vol. 85(4), pages 182-189, April.
    10. Blarke, M.B. & Lund, H., 2008. "The effectiveness of storage and relocation options in renewable energy systems," Renewable Energy, Elsevier, vol. 33(7), pages 1499-1507.
    11. Evans, Annette & Strezov, Vladimir & Evans, Tim J., 2009. "Assessment of sustainability indicators for renewable energy technologies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 13(5), pages 1082-1088, June.
    12. Zakeri, Behnam & Syri, Sanna, 2015. "Electrical energy storage systems: A comparative life cycle cost analysis," Renewable and Sustainable Energy Reviews, Elsevier, vol. 42(C), pages 569-596.
    13. Francesco Buffa & Simon Kemble & Giampaolo Manfrida & Adriano Milazzo, 2013. "Exergy and Exergoeconomic Model of a Ground-Based CAES Plant for Peak-Load Energy Production," Energies, MDPI, vol. 6(2), pages 1-18, February.
    14. Herbert, G.M. Joselin & Iniyan, S. & Goic, Ranko, 2010. "Performance, reliability and failure analysis of wind farm in a developing Country," Renewable Energy, Elsevier, vol. 35(12), pages 2739-2751.
    15. Arabkoohsar, A. & Ismail, K.A.R. & Machado, L. & Koury, R.N.N., 2016. "Energy consumption minimization in an innovative hybrid power production station by employing PV and evacuated tube collector solar thermal systems," Renewable Energy, Elsevier, vol. 93(C), pages 424-441.
    16. Cavallo, Alfred, 2007. "Controllable and affordable utility-scale electricity from intermittent wind resources and compressed air energy storage (CAES)," Energy, Elsevier, vol. 32(2), pages 120-127.

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