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Analysis and simulation of a blue energy cycle

Author

Listed:
  • Sharma, K.
  • Kim, Y.-H.
  • Yiacoumi, S.
  • Gabitto, J.
  • Bilheux, H.Z.
  • Santodonato, L.J.
  • Mayes, R.T.
  • Dai, S.
  • Tsouris, C.

Abstract

The mixing process of fresh water and seawater releases a significant amount of energy and is a potential source of renewable energy. The so called ‘blue energy’ or salinity-gradient energy can be harvested by a device consisting of carbon electrodes immersed in an electrolyte solution, based on the principle of capacitive double layer expansion (CDLE). In this study, we have investigated the feasibility of energy production based on the CDLE principle. Experiments and computer simulations were used to study the process. Mesoporous carbon materials, synthesized at the Oak Ridge National Laboratory, were used as electrode materials in the experiments. Neutron imaging of the blue energy cycle was conducted with cylindrical mesoporous carbon electrodes and 0.5 M lithium chloride as the electrolyte solution. For experiments conducted at 0.6 V and 0.9 V applied potential, a voltage increase of 0.061 V and 0.054 V was observed, respectively. From sequences of neutron images obtained for each step of the blue energy cycle, information on the direction and magnitude of lithium ion transport was obtained. A computer code was developed to simulate the process. Experimental data and computer simulations allowed us to predict energy production.

Suggested Citation

  • Sharma, K. & Kim, Y.-H. & Yiacoumi, S. & Gabitto, J. & Bilheux, H.Z. & Santodonato, L.J. & Mayes, R.T. & Dai, S. & Tsouris, C., 2016. "Analysis and simulation of a blue energy cycle," Renewable Energy, Elsevier, vol. 91(C), pages 249-260.
    • Handle: RePEc:eee:renene:v:91:y:2016:i:c:p:249-260
    DOI: 10.1016/j.renene.2016.01.044
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    Cited by:

    1. Ribas, Aline & Lucena, André F.P. & Schaeffer, Roberto, 2017. "Bridging the energy divide and securing higher collective well-being in a climate-constrained world," Energy Policy, Elsevier, vol. 108(C), pages 435-450.
    2. Yu, Hyun Jin Julie, 2017. "Virtuous cycle of solar photovoltaic development in new regions," Renewable and Sustainable Energy Reviews, Elsevier, vol. 78(C), pages 1357-1366.
    3. Oliva H., Sebastian, 2017. "Residential energy efficiency and distributed generation - Natural partners or competition?," Renewable and Sustainable Energy Reviews, Elsevier, vol. 76(C), pages 932-940.
    4. Wang, Meng & Infante Ferreira, Carlos A., 2017. "Absorption heat pump cycles with NH3 – ionic liquid working pairs," Applied Energy, Elsevier, vol. 204(C), pages 819-830.
    5. Weimer-Jehle, Wolfgang & Buchgeister, Jens & Hauser, Wolfgang & Kosow, Hannah & Naegler, Tobias & Poganietz, Witold-Roger & Pregger, Thomas & Prehofer, Sigrid & von Recklinghausen, Andreas & Schippl, , 2016. "Context scenarios and their usage for the construction of socio-technical energy scenarios," Energy, Elsevier, vol. 111(C), pages 956-970.
    6. World Bank, 2020. "Global Economic Prospects, June 2020," World Bank Publications - Books, The World Bank Group, number 33748, December.
    7. Kerr, Sandy & Johnson, Kate & Weir, Stephanie, 2017. "Understanding community benefit payments from renewable energy development," Energy Policy, Elsevier, vol. 105(C), pages 202-211.
    8. Melikoglu, Mehmet, 2017. "Vision 2023: Status quo and future of biomass and coal for sustainable energy generation in Turkey," Renewable and Sustainable Energy Reviews, Elsevier, vol. 74(C), pages 800-808.
    9. Mukherjee, Shilpi & Dhingra, Tarun & Sengupta, Anirban, 2017. "Status of Electricity Act, 2003: A systematic review of literature," Energy Policy, Elsevier, vol. 102(C), pages 237-248.

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