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Characterisation of the coupling of multi-effect distillation plants to concentrating solar power plants

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  • Palenzuela, Patricia
  • Zaragoza, Guillermo
  • Alarcón-Padilla, Diego-César

Abstract

The aim of this work is to analyse whether the integration of Multi-Effect Distillation (MED) process into Concentrating Solar Power (CSP) plants can be more competitive, under certain conditions, than the independent freshwater and power production by connecting a Reverse Osmosis (RO) system to a CSP plant. For this purpose, different CSP + MED configurations using the steam from the turbine as the thermal energy source of the desalination process have been evaluated and compared to the simple combination of a CSP plant connected to a RO plant. A sensitivity analysis has been carried out varying different parameters of the whole system (the specific electric consumption and the exhaust steam temperature) and calculating in each case the overall thermodynamic efficiency of the combined system for the same net production of electricity and desalinated water. This analysis has been performed for the three types of cooling methods usually employed in power plants (dry cooling, once-through and evaporative water cooling) and the results have been discussed in detail.

Suggested Citation

  • Palenzuela, Patricia & Zaragoza, Guillermo & Alarcón-Padilla, Diego-César, 2015. "Characterisation of the coupling of multi-effect distillation plants to concentrating solar power plants," Energy, Elsevier, vol. 82(C), pages 986-995.
  • Handle: RePEc:eee:energy:v:82:y:2015:i:c:p:986-995
    DOI: 10.1016/j.energy.2015.01.109
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    References listed on IDEAS

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    1. Omar, Amr & Nashed, Amir & Li, Qiyuan & Leslie, Greg & Taylor, Robert A., 2020. "Pathways for integrated concentrated solar power - Desalination: A critical review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 119(C).
    2. Lai, Xiaotian & Long, Rui & Liu, Zhichun & Liu, Wei, 2018. "A hybrid system using direct contact membrane distillation for water production to harvest waste heat from the proton exchange membrane fuel cell," Energy, Elsevier, vol. 147(C), pages 578-586.
    3. José M. Cardemil & Allan R. Starke & Adriana Zurita & Carlos Mata‐Torres & Rodrigo Escobar, 2021. "Integration schemes for hybrid and polygeneration concentrated solar power plants," Wiley Interdisciplinary Reviews: Energy and Environment, Wiley Blackwell, vol. 10(6), November.
    4. Altaee, Ali & Palenzuela, Patricia & Zaragoza, Guillermo & AlAnezi, Adnan Alhathal, 2017. "Single and dual stage closed-loop pressure retarded osmosis for power generation: Feasibility and performance," Applied Energy, Elsevier, vol. 191(C), pages 328-345.
    5. Abdelhay, AymanO. & Fath, HassanE.S. & Nada, S.A., 2020. "Solar driven polygeneration system for power, desalination and cooling," Energy, Elsevier, vol. 198(C).
    6. Tamburini, A. & Cipollina, A. & Micale, G. & Piacentino, A., 2016. "CHP (combined heat and power) retrofit for a large MED-TVC (multiple effect distillation along with thermal vapour compression) desalination plant: high efficiency assessment for different design opti," Energy, Elsevier, vol. 115(P3), pages 1548-1559.
    7. Olkis, Christopher & AL-Hasni, Shihab & Brandani, Stefano & Vasta, Salvatore & Santori, Giulio, 2021. "Solar powered adsorption desalination for Northern and Southern Europe," Energy, Elsevier, vol. 232(C).
    8. Ortega-Delgado, Bartolomé & Cornali, Matteo & Palenzuela, Patricia & Alarcón-Padilla, Diego C., 2017. "Operational analysis of the coupling between a multi-effect distillation unit with thermal vapor compression and a Rankine cycle power block using variable nozzle thermocompressors," Applied Energy, Elsevier, vol. 204(C), pages 690-701.
    9. Xie, Guo & Sun, Licheng & Yan, Tiantong & Tang, Jiguo & Bao, Jingjing & Du, Min, 2018. "Model development and experimental verification for tubular solar still operating under vacuum condition," Energy, Elsevier, vol. 157(C), pages 115-130.
    10. Ighball Baniasad Askari & Francesco Calise & Maria Vicidomini, 2019. "Design and Comparative Techno-Economic Analysis of Two Solar Polygeneration Systems Applied for Electricity, Cooling and Fresh Water Production," Energies, MDPI, vol. 12(22), pages 1-35, November.
    11. Li, Shuang-Fei & Liu, Zhen-Hua & Shao, Zhi-Xiong & Xiao, Hong-shen & Xia, Ning, 2018. "Performance study on a passive solar seawater desalination system using multi-effect heat recovery," Applied Energy, Elsevier, vol. 213(C), pages 343-352.
    12. Kouta, Amine & Al-Sulaiman, Fahad A. & Atif, Maimoon, 2017. "Energy analysis of a solar driven cogeneration system using supercritical CO2 power cycle and MEE-TVC desalination system," Energy, Elsevier, vol. 119(C), pages 996-1009.
    13. Wang, Gang & Dong, Boyi & Chen, Zeshao, 2021. "Design and behaviour estimate of a novel concentrated solar-driven power and desalination system using S–CO2 Brayton cycle and MSF technology," Renewable Energy, Elsevier, vol. 176(C), pages 555-564.
    14. Patricia Palenzuela & Marina Micari & Bartolomé Ortega-Delgado & Francesco Giacalone & Guillermo Zaragoza & Diego-César Alarcón-Padilla & Andrea Cipollina & Alessandro Tamburini & Giorgio Micale, 2018. "Performance Analysis of a RED-MED Salinity Gradient Heat Engine," Energies, MDPI, vol. 11(12), pages 1-23, December.

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