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一种用于河流水质预警的混合进化数据驱动模型。

A hybrid evolutionary data driven model for river water quality early warning.

机构信息

Tsinghua University - Veolia Environnement Joint Research Center for Advanced Environmental Technology, School of Environment, Tsinghua University, Beijing, China.

School of Environment, Tsinghua University, Beijing, China.

出版信息

J Environ Manage. 2014 Oct 1;143:8-16. doi: 10.1016/j.jenvman.2014.04.017. Epub 2014 May 13.

Abstract

China's fast pace industrialization and growing population has led to several accidental surface water pollution events in the last decades. The government of China, after the 2005 Songhua River incident, has pushed for the development of early warning systems (EWS) for drinking water source protection. However, there are still many weaknesses in EWS in China such as the lack of pollution monitoring and advanced water quality prediction models. The application of Data Driven Models (DDM) such as Artificial Neural Networks (ANN) has acquired recent attention as an alternative to physical models. For a case study in a south industrial city in China, a DDM based on genetic algorithm (GA) and ANN was tested to increase the response time of the city's EWS. The GA-ANN model was used to predict NH3-N, CODmn and TOC variables at station B 2 h ahead of time while showing the most sensitive input variables available at station A, 12 km upstream. For NH3-N, the most sensitive input variables were TOC, CODmn, TP, NH3-N and Turbidity with model performance giving a mean square error (MSE) of 0.0033, mean percent error (MPE) of 6% and regression (R) of 92%. For COD, the most sensitive input variables were Turbidity and CODmn with model performance giving a MSE of 0.201, MPE of 5% and R of 0.87. For TOC, the most sensitive input variables were Turbidity and CODmn with model performance giving a MSE of 0.101, MPE of 2% and R of 0.94. In addition, the GA-ANN model performed better for 8 h ahead of time. For future studies, the use of a GA-ANN modelling technique can be very useful for water quality prediction in Chinese monitoring stations which already measure and have immediately available water quality data.

摘要

中国快速的工业化和人口增长导致过去几十年发生了几起地表水意外污染事件。中国政府在 2005 年松花江水污染事件后,推动了饮用水水源保护预警系统(EWS)的发展。然而,中国的 EWS 仍然存在许多弱点,例如缺乏污染监测和先进的水质预测模型。数据驱动模型(DDM)的应用,如人工神经网络(ANN),已作为物理模型的替代方案受到关注。在中国南方一个工业城市进行的案例研究中,测试了一种基于遗传算法(GA)和 ANN 的 DDM,以提高该市 EWS 的响应时间。GA-ANN 模型用于预测站 B 的 NH3-N、CODmn 和 TOC 变量,提前 2 小时,同时显示站 A(上游 12 公里处)可用的最敏感输入变量。对于 NH3-N,最敏感的输入变量是 TOC、CODmn、TP、NH3-N 和浊度,模型性能给出的均方误差(MSE)为 0.0033,平均百分比误差(MPE)为 6%,回归(R)为 92%。对于 COD,最敏感的输入变量是浊度和 CODmn,模型性能给出的 MSE 为 0.201,MPE 为 5%,R 为 0.87。对于 TOC,最敏感的输入变量是浊度和 CODmn,模型性能给出的 MSE 为 0.101,MPE 为 2%,R 为 0.94。此外,GA-ANN 模型在提前 8 小时的预测效果更好。未来的研究中,使用 GA-ANN 建模技术对于已经测量并可立即获得水质数据的中国监测站的水质预测非常有用。

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