Flexible operation of photovoltaic electrodialysis (PV-ED) low-cost community-scale desalination systems

Anne-Claire Le Henaff, Wei He, T. Buonassisi, A. Winter, I. M. Peters
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引用次数: 1

Abstract

Although brackish groundwater desalination is a promising solution to water scarcity in rural India, powering desalination systems in remote locations where grid power is not reliable remains an issue due to the high upfront cost of solar panels and batteries. This paper focuses on photovoltaic electrodialysis (PV-ED) desalination and proposes novel, flexible operation modes to integrate more efficiently the time-dependent solar power with the ED load, and replace energy storage in batteries by water storage in tanks. By first defining an irradiance-dependent desalination schedule, and further on extending the system flexibility to adjust in real-time the system power consumption, a better matching between the energy supply and demand is proposed that directly converts solar energy into water and potentially eliminates battery needs. Coupled with a system-level optimization of the desalination and power modules, operating with a flexible schedule leads 42% capital cost reduction compared to PV-ED systems conventionally designed. Additional cost reductions are anticipated from the fully-flexible operation with close to 90% of the solar energy directly used by the system, which is twice as much as the level achieved by binary on/off control in the optimal configuration.
光伏电渗析(PV-ED)低成本社区规模海水淡化系统的灵活运行
尽管微咸地下水脱盐是解决印度农村缺水问题的一个有希望的解决方案,但在电网供电不可靠的偏远地区,为脱盐系统供电仍然是一个问题,因为太阳能电池板和电池的前期成本很高。本文以光伏电渗析(PV-ED)海水淡化为研究重点,提出了一种新颖、灵活的运行模式,以更有效地将时变太阳能发电与光伏电渗析负荷相结合,并以储水罐代替电池储能。通过首先定义一个依赖于辐照度的脱盐计划,并进一步扩展系统灵活性以实时调整系统功耗,提出了能源供需之间更好的匹配,直接将太阳能转化为水,并可能消除对电池的需求。再加上对海水淡化和电源模块的系统级优化,与传统设计的PV-ED系统相比,灵活的运行时间表可将资本成本降低42%。由于系统直接使用了近90%的太阳能,完全灵活的操作有望进一步降低成本,这是最佳配置中二元开/关控制所达到的水平的两倍。
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