活性污泥过程溶解氧的神经网络自适应控制

2019 International Conference on Wireless Networks and Mobile Communications (WINCOM) Pub Date : 2019-10-01 DOI:10.1109/wincom47513.2019.8942417

Nissrine Drioui, E. E. Mazoudi, J. Alami

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引用次数: 1

摘要

活性污泥废水处理过程由于其复杂的非线性行为而难以控制，然而，营养物和污染物的去除是由微生物进行的，这些需要氧气来分解水中的废物;氧气通过泵送空气通过扩散器产生气泡这是一个非常能源密集型的过程这可以用来增加生物能力并创造一个理想的环境来支持吸收和消耗污染物的基质以及增加废水中污染物的消耗。为此，本文探索了一种基于神经网络小脑模型计算机(CMAC)的自适应控制算法与PI控制在理想参考点处的溶解氧控制的新方法，以保持曝气生物反应器的目的点。该控制器在简化版的仿真参考模型1上进行了测试，并提供了高性能和高效率的干扰。

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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Neural Network Adaptive Control of Dissolved Oxygen for an Activated Sludge process

Activated sludge wastewater treatment processes are difficult to be controlled because of their complex and nonlinear behavior, however, The removal of nutrients and pollutants is carried out by microorganisms, these require oxygen to break down the waste in the water; oxygen has been delivered by pumping air through diffusers to create bubbles it's a very energy intensive process this can be used to increase biological capacity and creates an ideal environment to support the substrate which absorbs and consumes the polluants and incrased consumption of the polluants found in the wastewater. For this reason, a new approach is explored in this paper using an adaptive control algorithm based on neural networks Cerebellar Model Arithmetic Computer (CMAC) compared with PI control at the desired reference for dissolved oxygen control to maintain a destination point in aerated bioreactors. The controller is tested on a simplified version of the simulation reference model number 1, and provides a high performance and efficiency to disturbances.

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2019 International Conference on Wireless Networks and Mobile Communications (WINCOM)

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