Reverse electrodialysis heat engine for sustainable power production
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DOI: 10.1016/j.apenergy.2017.10.008
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Cited by:
- Tian, Hailong & Wang, Ying & Pei, Yuansheng & Crittenden, John C., 2020. "Unique applications and improvements of reverse electrodialysis: A review and outlook," Applied Energy, Elsevier, vol. 262(C).
- Long, Rui & Zhao, Yanan & Luo, Zuoqing & Li, Lei & Liu, Zhichun & Liu, Wei, 2020. "Alternative thermal regenerative osmotic heat engines for low-grade heat harvesting," Energy, Elsevier, vol. 195(C).
- Zhang, Yongwen & Wu, Xi & Sun, Dexin & Wang, Sixue & Xu, Shiming, 2023. "Techno-economic analysis of conversing the low-grade heat to hydrogen by using reverse electrodialysis – Air gap diffusion distillation coupled method for iron and steel industry," Energy, Elsevier, vol. 283(C).
- Kjersti Wergeland Krakhella & Robert Bock & Odne Stokke Burheim & Frode Seland & Kristian Etienne Einarsrud, 2019. "Heat to H 2 : Using Waste Heat for Hydrogen Production through Reverse Electrodialysis," Energies, MDPI, vol. 12(18), pages 1-25, September.
- Brogioli, Doriano & La Mantia, Fabio & Yip, Ngai Yin, 2019. "Energy efficiency analysis of distillation for thermally regenerative salinity gradient power technologies," Renewable Energy, Elsevier, vol. 133(C), pages 1034-1045.
- Giacalone, F. & Olkis, C. & Santori, G. & Cipollina, A. & Brandani, S. & Micale, G., 2019. "Novel solutions for closed-loop reverse electrodialysis: Thermodynamic characterisation and perspective analysis," Energy, Elsevier, vol. 166(C), pages 674-689.
- Tufa, Ramato Ashu & Noviello, Ylenia & Di Profio, Gianluca & Macedonio, Francesca & Ali, Aamer & Drioli, Enrico & Fontananova, Enrica & Bouzek, Karel & Curcio, Efrem, 2019. "Integrated membrane distillation-reverse electrodialysis system for energy-efficient seawater desalination," Applied Energy, Elsevier, vol. 253(C), pages 1-1.
- Long, Rui & Zhao, Yanan & Li, Mingliang & Pan, Yao & Liu, Zhichun & Liu, Wei, 2021. "Evaluations of adsorbents and salt-methanol solutions for low-grade heat driven osmotic heat engines," Energy, Elsevier, vol. 229(C).
- Tong, Xin & Liu, Su & Yan, Junchen & Broesicke, Osvaldo A. & Chen, Yongsheng & Crittenden, John, 2020. "Thermolytic osmotic heat engine for low-grade heat harvesting: Thermodynamic investigation and potential application exploration," Applied Energy, Elsevier, vol. 259(C).
- Olkis, C. & Santori, G. & Brandani, S., 2018. "An Adsorption Reverse Electrodialysis system for the generation of electricity from low-grade heat," Applied Energy, Elsevier, vol. 231(C), pages 222-234.
- Vicari, Fabrizio & Galia, Alessandro & Scialdone, Onofrio, 2021. "Development of a membrane-less microfluidic thermally regenerative ammonia battery," Energy, Elsevier, vol. 225(C).
- Ortega-Delgado, B. & Giacalone, F. & Cipollina, A. & Papapetrou, M. & Kosmadakis, G. & Tamburini, A. & Micale, G., 2019. "Boosting the performance of a Reverse Electrodialysis – Multi-Effect Distillation Heat Engine by novel solutions and operating conditions," Applied Energy, Elsevier, vol. 253(C), pages 1-1.
- Luo, Qizhao & Pei, Junxian & Yun, Panfeng & Hu, Xuejiao & Cao, Bin & Shan, Kunpeng & Tang, Bin & Huang, Kaiming & Chen, Aofei & Huang, Lu & Huang, Zhi & Jiang, Haifeng, 2023. "Simultaneous water production and electricity generation driven by synergistic temperature-salinity gradient in thermo-osmosis process," Applied Energy, Elsevier, vol. 351(C).
- Liu, Zijian & Lu, Ding & Guo, Hao & Zhang, Jiayu & Tao, Shen & Chen, Rundong & Chen, LingYu & Gong, Maoqiong, 2023. "Experimental study and prospect analysis of LiBr-H2O reverse electrodialysis heat engine," Applied Energy, Elsevier, vol. 350(C).
- Tufa, Ramato Ashu & Pawlowski, Sylwin & Veerman, Joost & Bouzek, Karel & Fontananova, Enrica & di Profio, Gianluca & Velizarov, Svetlozar & Goulão Crespo, João & Nijmeijer, Kitty & Curcio, Efrem, 2018. "Progress and prospects in reverse electrodialysis for salinity gradient energy conversion and storage," Applied Energy, Elsevier, vol. 225(C), pages 290-331.
- Mai, Van-Phung & Yang, Ruey-Jen, 2020. "Boosting power generation from salinity gradient on high-density nanoporous membrane using thermal effect," Applied Energy, Elsevier, vol. 274(C).
- Simon B. B. Solberg & Pauline Zimmermann & Øivind Wilhelmsen & Jacob J. Lamb & Robert Bock & Odne S. Burheim, 2022. "Heat to Hydrogen by Reverse Electrodialysis—Using a Non-Equilibrium Thermodynamics Model to Evaluate Hydrogen Production Concepts Utilising Waste Heat," Energies, MDPI, vol. 15(16), pages 1-22, August.
- Zhao, Yanan & Luo, Zuoqing & Long, Rui & Liu, Zhichun & Liu, Wei, 2020. "Performance evaluations of an adsorption-based power and cooling cogeneration system under different operative conditions and working fluids," Energy, Elsevier, vol. 204(C).
- 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.
- Michael Papapetrou & George Kosmadakis & Francesco Giacalone & Bartolomé Ortega-Delgado & Andrea Cipollina & Alessandro Tamburini & Giorgio Micale, 2019. "Evaluation of the Economic and Environmental Performance of Low-Temperature Heat to Power Conversion using a Reverse Electrodialysis – Multi-Effect Distillation System," Energies, MDPI, vol. 12(17), pages 1-26, August.
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Keywords
Reverse electrodialysis; Closed loop; Heat engine; Thermolytic salts; Modelling; Power production cycle;All these keywords.
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