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使用人工神经网络对光合氧化生物降解过程进行建模。

Modeling photosynthetically oxygenated biodegradation processes using artificial neural networks.

作者信息

Arranz A, Bordel S, Villaverde S, Zamarreño J M, Guieysse B, Muñoz R

机构信息

Department of System Engineering and Automatic Control, Valladolid University, Paseo del Prado de la Magdalena s/n, Valladolid, Spain.

出版信息

J Hazard Mater. 2008 Jun 30;155(1-2):51-7. doi: 10.1016/j.jhazmat.2007.11.027. Epub 2007 Nov 17.

Abstract

The complexity of the mechanisms underlying organic matter mineralization and nutrient removal in algal-bacterial photobioreactors during the treatment of residual wastewaters has severely hindered the development of mechanistic models able to accurately describe these processes. Artificial neural networks (ANNs) are capable of inferring the complex relationships existing between input and output process variables without a detailed description of the mechanisms governing the process, and should therefore be more suitable for the modeling of photosynthetically oxygenated systems. Thus, a neural network consisting of a single hidden layer with four neurons accurately predicted the steady-state operation of a continuous stirred tank photobioreactor during salicylate biodegradation by an algal-bacterial consortium. Despite its simplicity and the low number of data sets for ANN training (23), this network topology exhibited a satisfactory fit for both training and testing data with correlation coefficients of 99%. Although the use of ANNs for modeling conventional wastewater treatment systems is not novel, this work constitutes, to the best of our knowledge, the first reported application of ANNs to photosynthetically oxygenated systems and one of the few models for microalgae-based treatment processes. This modeling approach is therefore expected to contribute to improve the understanding of the complex relationships between light, temperature, hydraulic retention time, pollutant concentration and process removal efficiency, which would eventually promote the development of algal-bacterial processes as a cost effective alternative for the treatment of industrial wastewaters.

摘要

在处理残余废水期间,藻菌光生物反应器中有机物矿化和养分去除潜在机制的复杂性严重阻碍了能够准确描述这些过程的机理模型的发展。人工神经网络(ANNs)能够推断输入和输出过程变量之间存在的复杂关系,而无需对控制该过程的机制进行详细描述,因此应该更适合用于光合充氧系统的建模。因此,一个由具有四个神经元的单个隐藏层组成的神经网络准确预测了藻菌联合体在水杨酸盐生物降解过程中连续搅拌罐式光生物反应器的稳态运行。尽管其简单且用于ANN训练的数据集数量较少(23个),但这种网络拓扑结构对训练和测试数据均表现出令人满意的拟合度,相关系数为99%。虽然将ANNs用于传统废水处理系统建模并非新颖之事,但据我们所知,这项工作是首次报道将ANNs应用于光合充氧系统,也是基于微藻处理过程的少数模型之一。因此,这种建模方法有望有助于增进对光、温度、水力停留时间、污染物浓度和过程去除效率之间复杂关系的理解,这最终将推动藻菌处理过程的发展,成为一种具有成本效益的工业废水处理替代方案。

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