Guobi Ling scite author profile

In view of the difficulty in obtaining the membrane bioreactor (MBR) membrane flux in real time, considering the disadvantage of the back propagation (BP) network in predicting MBR membrane flux, such as the local minimum value and poor generalization ability of the model, this article introduces tent chaotic mapping in the standard sparrow search algorithm (SSA), which improves the uniformity of population distribution and the searching ability of the algorithm (used to optimize the key parameters of the BP network). The tent sparrow search algorithm back propagation network (Tent-SSA-BP) membrane fouling prediction model is established to achieve accurate prediction of membrane flux; compared to the BP, genetic algorithm back propagation network (GA-BP), particle swarm optimization back propagation network (PSO-BP), sparrow search algorithm extreme learning machine(SSA-ELM), sparrow search algorithm back propagation network (SSA-BP), and Tent particle swarm optimization back propagation network (Tent–PSO-BP) models, it has unique advantages. Compared with the BP model before improvement, the improved soft sensing model reduces MAPE by 96.76%, RMSE by 99.78% and MAE by 95.61%. The prediction accuracy of the algorithm proposed in this article reaches 97.4%, which is much higher than the 48.52% of BP. It is also higher than other prediction models, and the prediction accuracy has been greatly improved, which has some engineering reference value.

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MBR membrane fouling diagnosis based on improved residual neural network

Wang

Zeng

Shi

et al. 2023

Journal of Environmental Chemical Engineering

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Prediction of Membrane Fouling based on SSA-LSTM Neural Network

Ling¹

2022

FSE

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In view of the difficulty in obtaining the membrane bioreactor (MBR) membrane flux in real time and stable control, a sparrow search algorithm (SSA) is proposed to optimize the SSA-LSTM prediction model of long short-term memory (LSTM) neural network. Firstly, principal component analysis (PCA) is used to realize the dimensionality reduction of auxiliary variables. Second, use the sparrow search algorithm to determine the relevant hyper-parameters of the LSTM neural network. Finally, the selected auxiliary variables are used as the input of the SSA-LSTM prediction model, and the membrane flux is used as the prediction output, the measured data is used as the sample for experimental verification. The accuracy rate reaches 94.31%, which is much higher than 63.63% of LSTM. The results show that the proposed membrane flux prediction model has higher prediction performance.

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Membrane Fouling Diagnosis of Membrane Components Based on MOJS-ADBN

Shi

Wang

et al. 2022

Membranes

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Given the strong nonlinearity and large time-varying characteristics of membrane component fouling in the membrane water treatment process, a membrane component-membrane fouling diagnosis method based on the multi-objective jellyfish search adaptive deep belief network (MOJS-ADBN) is proposed. Firstly, the adaptive learning rate is introduced into the unsupervised pre-training phase of DBN to improve the convergence speed of the network. Secondly, the MOJS method is used to replace the gradient-based layer-by-layer weight fine-tuning method in traditional DBN to improve the ability of network feature extraction. At the same time, the convergence of the MOJS-ADBN learning process is proven by constructing the Lyapunov function. Finally, MOJS-ADBN is used in the membrane packaging diagnosis to verify the performance of the model diagnosis. The experimental results show that MOJS-ADBN has a fast convergence speed and a high diagnostic accuracy, and can provide a theoretical basis for membrane fouling diagnosis in the actual operation of membrane water treatment.

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Guobi Ling

Research on the membrane fouling diagnosis of MBR membrane module based on ECA-CNN

Membrane Fouling Prediction Based on Tent-SSA-BP

MBR membrane fouling diagnosis based on improved residual neural network

Prediction of Membrane Fouling based on SSA-LSTM Neural Network

Membrane Fouling Diagnosis of Membrane Components Based on MOJS-ADBN

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