数据驱动模型作为模拟新兴生物过程的强大工具:描述甲烷营养微生物活动的人工神经网络模型

IF 6 1区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Journal of Environmental Informatics Pub Date : 2021-01-01 DOI:10.3808/jei.202000446

A. Alsayed, M. Soliman, R. Shakir, E. Snieder, A. Eldyasti, U. Khan

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引用次数: 5

摘要

．对污水处理厂的设想正在进行修改，不再把它们视为清除污染物的设施，而是视为水资源回收设施。然而，从微生物学和动力学的角度来看，WRRFs中新采用的生物过程尚未完全了解。因此，基于动力学的数值模型的输出的巨大变化是显而易见的。在这项研究中，数据驱动模型(DDM)被提出作为对新兴生物过程建模的稳健替代方案。甲烷氧化菌是一种多用途细菌，在wrrf中对沼气的再气化起着关键作用，为此，建立并优化了多层感知器人工神经网络(ANN)模型，以模拟多种环境条件下混合甲烷氧化菌的培养。通过开发和分析几种不同的人工神经网络模型配置，评估了输入变量对输出的影响。构建的人工神经网络模型表明，在完全理解物理或数学过程之前，可以准确地考虑输入和输出之间的间接和复杂关系。此外，研究发现，人工神经网络模型可以更好地理解不同输入变量(即影响甲烷氧化菌的物理参数)对微生物活性的影响并对其进行排序。由于气相、液相和固相之间的相互作用，以甲烷营养为基础的生物过程是复杂的。然而，本研究首次成功地利用DDM来模拟基于甲烷氧化的生物过程。本研究的结果表明，DDM是一种强大的、可替代的建模工具，可用于对正在出现的生物过程进行建模，以便在WRRFs中实现。

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Data Driven Models as A Powerful Tool to Simulate Emerging Bioprocesses: An Artificial Neural Network Model to Describe Methanotrophic Microbial Activity

. The vision for sewage treatment plants is being revised and they are no longer considered as pollutant removing facilities but rather as water resources recovery facilities (WRRFs). However, the newly adopted bioprocesses in WRRFs are not fully understood from the microbiological and kinetic perspectives. Thus, large variations in the outputs of the kinetics-based numerical models are evident. In this research, data driven models (DDM) are proposed as a robust alternative towards modelling emerging bioprocesses. Methanotrophs are multi-use bacterium that can play key role in revalorizing the biogas in WRRFs, and thus, a Multi-Layer Perceptron Artificial Neural Network (ANN) model was developed and optimized to simulate the cultivation of mixed methanotrophic culture considering multiple environmental conditions. The influence of the input variables on the outputs was assessed through developing and analyzing several different ANN model configurations. The constructed ANN models demonstrate that the indirect and complex relationships between the inputs and outputs can be accurately considered prior to the full understanding of the physical or mathematical processes. Furthermore, it was found that ANN models can be used to better understand and rank the influence of different input variables (i.e., the physical parameters that influence methanotrophs) on the microbial activity. Methanotrophic-based bioprocesses are complex due to the interactions between the gaseous, liquid and solid phases. Yet, for the first time, this study successfully utilized DDM to model methanotrophic-based bioprocesses. The findings of this research suggest that DDM are a powerful, alternative modeling tool that can be used to model emerging bioprocesses towards their implementation in WRRFs.

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来源期刊

Journal of Environmental Informatics ENVIRONMENTAL SCIENCES-

CiteScore

12.40

自引率

2.90%

发文量

审稿时长

24 months

期刊介绍： Journal of Environmental Informatics (JEI) is an international, peer-reviewed, and interdisciplinary publication designed to foster research innovation and discovery on basic science and information technology for addressing various environmental problems. The journal aims to motivate and enhance the integration of science and technology to help develop sustainable solutions that are consensus-oriented, risk-informed, scientifically-based and cost-effective. JEI serves researchers, educators and practitioners who are interested in theoretical and/or applied aspects of environmental science, regardless of disciplinary boundaries. The topics addressed by the journal include: - Planning of energy, environmental and ecological management systems - Simulation, optimization and Environmental decision support - Environmental geomatics - GIS, RS and other spatial information technologies - Informatics for environmental chemistry and biochemistry - Environmental applications of functional materials - Environmental phenomena at atomic, molecular and macromolecular scales - Modeling of chemical, biological and environmental processes - Modeling of biotechnological systems for enhanced pollution mitigation - Computer graphics and visualization for environmental decision support - Artificial intelligence and expert systems for environmental applications - Environmental statistics and risk analysis - Climate modeling, downscaling, impact assessment, and adaptation planning - Other areas of environmental systems science and information technology.