EXPERIENCES WITH A PV-DRIVEN SEAWATER DESALINATION SYSTEM USING AN OPERATING CONTROL STRATEGY FOR OPERATION WITHOUT BATTERIES

机译：光伏驱动海水淡化系统的经验，该系统采用无电池操作的操作控制策略

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Availability of drinking water and fresh water for irrigation is going to be more critical for many arid regions inthe world. In rural areas suffering from water scarcity and insufficient infrastructure, decentralized autonomousseawater desalination systems could be a sustainable solution for fresh water production. Autonomy could beachieved through coupling RO desalination with PV especially because the need for seawater desalination oftencoincides with regions receiving large amounts of solar irradiation. Such autonomous solar driven desalinationsystem for rural areas needs to be cost effective and requiring low maintenance. One way to achieve this isthrough reducing or eliminating the need for energy storage devices while producing as much water as possibleduring sunshine hours without losses. A photovoltaic reverse osmosis system without energy storage has to betracked to the solar power offered. This results in an intermittent and dynamic operation, which requiressophisticated operating control strategies. A photovoltaic driven reverse osmosis desalination system (PV-RO)that meets these requirements was developed and realized at Fraunhofer ISE.

机译：饮用水和淡水用于灌溉对于非洲许多干旱地区将变得更加关键。世界。在缺水和基础设施不足的农村地区，权力下放的权力下放海水淡化系统可能是淡水生产的可持续解决方案。自治可能是通过将RO脱盐与PV耦合实现，特别是因为经常需要海水脱盐与接受大量太阳辐射的区域一致。这种自主的太阳能驱动淡化农村地区的系统必须具有成本效益，并且维护成本低。实现此目的的一种方法是通过减少或消除对储能设备的需求，同时产生尽可能多的水在阳光充足的时候没有损失。没有能量存储的光伏反渗透系统必须是跟踪提供的太阳能。这导致间歇性的动态操作，这需要复杂的操作控制策略。光伏驱动的反渗透淡化系统（PV-RO）满足这些要求的产品是在Fraunhofer ISE上开发并实现的。

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《European Photovoltaic Solar Energy Conference and Exhibition》|2011年|4034-4037|共4页
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Joachim Went; Alexander Schies; Julian Anhalt; Matthias Vetter;
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Stand-alone PV Systems; Water-Pumping; Control Strategy; Desalination; PV-RO;

机译：独立光伏系统;;抽水;;控制策略;;海水淡化;; PV-RO;

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专利

1. Operating experience of the Dhekelia seawater desalination plant using an innovative energy recovery system [J] . Olga L.Villa Sallangos Desalination: The International Journal on the Science and Technology of Desalting and Water Purification . 2005,第1期

机译：Dhekelia海水淡化厂使用创新的能量回收系统的运营经验
2. Power control strategy for PV/Wind reverse osmosis desalination without battery [J] . Khiari Wahib, Turki Mehdi, Belhadj Jamel Control Engineering Practice . 2019,第AUGa期

机译：无电池的光伏/风反渗透淡化的功率控制策略
3. Power control strategy for PV/Wind reverse osmosis desalination without battery [J] . Khiari Wahib, Turki Mehdi, Belhadj Jamel Control Engineering Practice . 2019,第Auga期

机译：用于光伏/风的功率控制策略反渗透脱水脱落而无电池
4. Optimal Sizing and Control Strategy of Hybrid PV-Diesel Systems achieving minimum possible fuel Consumption in island Operations mode without batteries [C] . Ahmed Khattab, Ayman Samy Abdel-Khalik, Ragi Hamdy IEEE Conference on Power Electronics and Renewable Energy . 2019

机译：混合动力光伏柴油系统的最佳尺寸和控制策略，可在无电池的孤岛运行模式下实现最低的燃油消耗
5. Effects of bloom-forming algae on fouling of integrated membrane systems in seawater desalination. [D] . Ladner, David Allen. 2009

机译：成花藻类对海水淡化中综合膜系统结垢的影响。
6. Commercial Pressure Retarded Osmosis Systems for Seawater Desalination Plants [O] . Ryo Makabe, Tetsuro Ueyama, Hideyuki Sakai, 2021

机译：海水淡化厂的商业压力延迟渗透系统
7. Optimal scheduling, design, operation and control of reverse osmosis desalination. Prediction of RO membrane performance under different design and operating conditions, synthesis of RO networks using MINLP optimization framework involving fouling, boron removal, variable seawater temperature and variable fresh water demand. [O] . Sassi Kamal M. 2012

机译：反渗透淡化的最佳计划，设计，操作和控制。预测不同设计和操作条件下反渗透膜的性能，使用MINLP优化框架合成反渗透网络，包括结垢，除硼，变化的海水温度和变化的淡水需求。

EXPERIENCES WITH A PV-DRIVEN SEAWATER DESALINATION SYSTEM USING AN OPERATING CONTROL STRATEGY FOR OPERATION WITHOUT BATTERIES

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