Modeling and Forecasting of nanoFeCu Treated Sewage Quality Using Recurrent Neural Network (RNN)-Reference-Cited by-同舟云学术

Modeling and Forecasting of nanoFeCu Treated Sewage Quality Using Recurrent Neural Network (RNN)

Published:2023-02-17 Issue:2 Volume:11 Page:39
ISSN:2079-3197
Container-title:Computation
language:en
Short-container-title:Computation

Author:

Cao Dingding¹²^ORCID,Chan MieowKee¹^ORCID,Ng SokChoo³

Affiliation:

1. Centre for Water Research, Faculty of Engineering and the Built Environment, SEGi University, Petaling Jaya 47810, Malaysia

2. Department of Electrical and Electronic Engineering, Guangdong Technology College, Zhaoqing 526100, China

3. Faculty of Arts and Science, International University of Malaya-Wales, Kuala Lumpur 50480, Malaysia

Abstract

Rapid industrialization and population growth cause severe water pollution and increased water demand. The use of FeCu nanoparticles (nanoFeCu) in treating sewage has been proven to be a space-efficient method. The objective of this work is to develop a recurrent neural network (RNN) model to estimate the performance of immobilized nanoFeCu in sewage treatment, thereby easing the monitoring and forecasting of sewage quality. In this work, sewage data was collected from a local sewage treatment plant. pH, nitrate, nitrite, and ammonia were used as the inputs. One-to-one and three-to-three RNN architectures were developed, optimized, and analyzed. The result showed that the one-to-one model predicted all four inputs with good accuracy, where R2 was found within a range of 0.87 to 0.98. However, the stability of the one-to-one model was not as good as the three-to-three model, as the inputs were chemically and statistically correlated in the later model. The best three-to-three model was developed by a single layer with 10 neurons and an average R2 of 0.91. In conclusion, this research provides data support for designing the neural network prediction model for sewage and provides positive significance for the exploration of smart sewage treatment plants.

Funder

SEGi University

Publisher

MDPI AG

Subject

Applied Mathematics,Modeling and Simulation,General Computer Science,Theoretical Computer Science

Link

https://www.mdpi.com/2079-3197/11/2/39/pdf

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