Fuzzy expert system for the process of collecting and purifying acidic water: a digital twin approach
Maratuly T. Shamoi P. Samigulin T.
2026Springer
International Journal of System Assurance Engineering and Management
2026
Purifying sour water is essential for reducing emissions, minimizing corrosion risks, enabling the reuse of treated water in industrial or domestic applications, and ultimately lowering operational costs. Moreover, automating the purification process helps reduce the risk of worker harm by limiting human involvement. Crude oil contains acidic components such as hydrogen sulfide (), carbon dioxide (), and other chemical compounds. During processing, these substances are partially released into sour water. If not properly treated, sour water poses serious environmental threats and accelerates the corrosion of pipelines and equipment. This paper presents a fuzzy expert system, combined with a custom-generated digital twin, developed from a documented industrial process to maintain key parameters at desired levels by mimicking human reasoning. The control strategy is designed to be simple and intuitive, allowing junior or non-expert personnel to interact with the system effectively. The digital twin was developed using Honeywell’s UniSim Design R492 to simulate real industrial behavior accurately. Valve dynamics were modeled through system identification in MATLAB, and real-time data exchange between the simulator and controller was established using OPC DA. The fuzzy controller applies split-range control to two valves and was tested under 21 different initial pressure conditions using five distinct defuzzification strategies, resulting in a total of 105 unique test scenarios. System performance was evaluated using both error-based metrics (MSE, RMSE, MAE, IAE, ISE, ITAE) and dynamic response metrics, including overshoot, undershoot, rise time, fall time, settling time, and steady-state error. A web-based simulation interface was developed in Python using the Streamlit framework. Although demonstrated here for sour water treatment, the proposed fuzzy expert system is general-purpose. It can be adapted to other industrial processes by adjusting settings, rules, and input/output ranges based on expert knowledge or available documentation. The main contributions of this work include a reusable digital twin-based framework, fuzzy control for pressure regulation, and a detailed performance comparison of defuzzification methods.
Artificial intelligence , Digital twin , Fuzzy expert system , Fuzzy inference system , Fuzzy logic , Unisim design
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School of Information Technology and Engineering, Kazakh-British Technical University, Tole Bi Street, 59, Almaty, 050000, Kazakhstan
School of Information Technology and Engineering
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