Application of fuzzy control system in dynamic adjustment of pH value for seawater bromine extraction

¹ Institute of Seawater Desalination and Multipurpose Utilization, SOA, Tianjin, China
² Shandong Institute of Seawater Desalination and Comprehensive Utilization Industry, Shandong, China

^* Corresponding author: Yi Zhang

Abstract

With the growing global demand for bromine resources, seawater bromine extraction has gained increasing attention as a critical resource development technology, particularly in terms of efficiency and quality control. The regulation of pH during seawater acidification and oxidation plays a pivotal role in the extraction process. However, traditional control methods often struggle to adapt to complex industrial environments and dynamic process conditions. Fuzzy control systems, as an advanced intelligent control technology, exhibit strong adaptability and robustness in handling nonlinear relationships and uncertainties. This study investigates the feasibility of applying fuzzy control systems to dynamically adjust pH in seawater bromine extraction, analyzing their potential advantages and cutting-edge applications. Theoretical analysis and technical evaluation demonstrate that fuzzy control systems can significantly enhance process stability while reducing energy consumption and operational costs. The implementation of fuzzy control systems in seawater bromine extraction not only holds substantial theoretical significance but also offers innovative solutions for technological advancement and sustainable industrial development.