Autonomous online optimization of a closed-circuit reverse osmosis system

IF 7.2 2区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

Water Research X Pub Date : 2024-11-20 DOI:10.1016/j.wroa.2024.100279

Dhrubajit Chowdhury , Aurora Kuras , Tani Cath , Amanda S. Hering , Alexander Melin , Tzahi Y. Cath , Kris Villez

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Abstract

As freshwater becomes increasingly scarce, many industrial and municipal water utilities look at premise-scale water treatment and reuse to meet water demand. Closed-circuit reverse osmosis (CCRO) has been proposed as a promising process design to do so. This sequencing batch process enables operation at higher brine salinity levels by means of a recycle flow. Optimal operation requires that the maximum salinity level at the membrane surface represents an optimal trade-off between brine disposal costs and energy efficiency. This maximum salinity level may change over time as the feed water composition changes and electricity markets fluctuate. In this article, we present the results of the experimental evaluation of an automatic technique for continuous online optimization, known as extremum seeking control. This technique has a long history in the process control community but has received little traction so far in the water industry. We modify this technique to enable its use for online optimization of CCRO, specifically to account for its sequential batch operation. We challenge the optimization schemes through several experimental tests and illustrate the advantages and drawbacks of extremum-seeking control.

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闭路反渗透系统的自主在线优化

随着淡水变得越来越稀缺，许多工业和市政供水公司着眼于室内规模的水处理和再利用，以满足水的需求。闭路反渗透（CCRO）被认为是一种很有前途的工艺设计。这种顺序批处理工艺可以通过循环流在更高的盐水盐度水平下进行操作。最佳操作要求膜表面的最大盐度水平代表卤水处理成本和能源效率之间的最佳权衡。随着给水成分的变化和电力市场的波动，这个最高盐度水平可能会随着时间的推移而变化。在这篇文章中，我们展示了一种被称为极值寻求控制的连续在线优化自动技术的实验评估结果。该技术在过程控制界有着悠久的历史，但迄今为止在水工业中几乎没有得到牵引力。我们修改了该技术，使其能够用于CCRO的在线优化，特别是考虑到其顺序批处理操作。我们通过几个实验测试对优化方案进行了挑战，并说明了极值寻求控制的优点和缺点。

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来源期刊

Water Research X Environmental Science-Water Science and Technology

CiteScore

12.30

自引率

1.30%

发文量

期刊介绍： Water Research X is a sister journal of Water Research, which follows a Gold Open Access model. It focuses on publishing concise, letter-style research papers, visionary perspectives and editorials, as well as mini-reviews on emerging topics. The Journal invites contributions from researchers worldwide on various aspects of the science and technology related to the human impact on the water cycle, water quality, and its global management.