ICT Implications for a Pilot Water Treatment Plant Using Simulation Modeling

J. Sens. Actuator Networks Pub Date : 2023-05-19 DOI:10.3390/jsan12030042

W. A. K. Afridi, S. Mukhopadhyay

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引用次数: 1

Abstract

The current work is an illustration of an empirical investigation conducted on a pharmaceutical water treatment plant that subsequently proposes potential ICT implications for optimizing the plant’s conventional operating procedures and improving production efficiency. Typically, the pilot plant incorporates a standard infrastructure for maintaining quality and production goals. In the study, a schematic of the reverse osmosis section of the pilot treatment plant was developed. A mathematical modeling and process simulation approach was adopted to carry out the linear process investigation and validation of key performance parameters. The study’s findings reveal that the performance and lifecycle of the RO treatment unit are primarily determined via the structured pre-treatment filtering procedures, including critical parameters such as volumetric flowrate, solute concentrations, and differential pressure across the membrane. These operational parameters were also found to be instrumental in increasing plant production and improving equipment efficiency. Based on our results, the study proposes cost-effective ICT implications for plant managers through which pilot organization can substantially save on their annual water and energy consumption.

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利用模拟模型对中试水处理厂的ICT影响

目前的工作是对一家制药水处理厂进行的实证调查的说明，该调查随后提出了优化工厂传统操作程序和提高生产效率的潜在ICT影响。通常，试验工厂包含一个标准的基础设施来维持质量和生产目标。在研究中，制定了中试处理厂反渗透部分的示意图。采用数学建模和过程仿真方法对关键性能参数进行了线性过程研究和验证。研究结果表明，反渗透处理装置的性能和生命周期主要由结构化的预处理过滤程序决定，包括体积流量、溶质浓度和膜压差等关键参数。这些操作参数也被发现有助于提高工厂产量和提高设备效率。基于我们的研究结果，该研究提出了具有成本效益的ICT对工厂管理人员的影响，通过这些影响，试点组织可以大大节省其每年的水和能源消耗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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J. Sens. Actuator Networks

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