relation: https://khub.utp.edu.my/scholars/17878/
title: Elucidating the effect of process parameters on the production of hydrogen-rich syngas by biomass and coal Co-gasification techniques: A multi-criteria modeling approach
creator: Bahadar, A.
creator: Kanthasamy, R.
creator: Sait, H.H.
creator: Zwawi, M.
creator: Algarni, M.
creator: Ayodele, B.V.
creator: Cheng, C.K.
creator: Wei, L.J.
description: The thermochemical processes such as gasification and co-gasification of biomass and coal are promising route for producing hydrogen-rich syngas. However, the process is characterized with complex reactions that pose a tremendous challenge in terms of controlling the process variables. This challenge can be overcome using appropriate machine learning algorithm to model the nonlinear complex relationship between the predictors and the targeted response. Hence, this study aimed to employ various machine learning algorithms such as regression models, support vector machine regression (SVM), gaussian processing regression (GPR), and artificial neural networks (ANN) for modeling hydrogen-rich syngas production by gasification and co-gasification of biomass and coal. A total of 12 machine learning algorithms which comprises the regression models, SVM, GPR, and ANN were configured, trained using 124 datasets. The performances of the algorithms were evaluated using the coefficient of determination (R2), root mean square error (RMSE), mean square error (MSE), and mean absolute error (MAE). In all cases, the ANN algorithms offer superior performances and displayed robust predictions of the hydrogen-rich syngas from the co-gasification processes. The R2 of both the Levenberg-Marquardt- and Bayesian Regularization-trained ANN obtained from the prediction of the hydrogen-rich syngas was found to be within 0.857�0.998 with low prediction errors. The sensitivity analysis to determine the effect of the process parameters on the model output revealed that all the parameters showed a varying level of influence. In most of the processes, the gasification temperature was found to have the most significant influence on the model output. © 2021 Elsevier Ltd
publisher: Elsevier Ltd
date: 2022
type: Article
type: PeerReviewed
identifier:   Bahadar, A. and Kanthasamy, R. and Sait, H.H. and Zwawi, M. and Algarni, M. and Ayodele, B.V. and Cheng, C.K. and Wei, L.J.  (2022) Elucidating the effect of process parameters on the production of hydrogen-rich syngas by biomass and coal Co-gasification techniques: A multi-criteria modeling approach.  Chemosphere, 287.   ISSN 00456535     
relation: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85114033888&doi=10.1016%2fj.chemosphere.2021.132052&partnerID=40&md5=429906f8114934513610e2a11243d671
relation: 10.1016/j.chemosphere.2021.132052
identifier: 10.1016/j.chemosphere.2021.132052