An integrated framework of data-driven, metaheuristic, and mechanistic modeling approach for biomass pyrolysis
Author | Ullah, Zahid |
Author | Khan, Muzammil |
Author | Naqvi, Salman Raza |
Author | Khan, Muhammad Nouman Aslam |
Author | Farooq, Wasif |
Author | Anjum, Muhammad Waqas |
Author | Yaqub, Muhammad Waqas |
Author | AlMohamadi, Hamad |
Author | Almomani, Fares |
Available date | 2023-06-25T08:25:37Z |
Publication Date | 2022 |
Publication Name | Process Safety and Environmental Protection |
Resource | Scopus |
Abstract | This study presents an integrated hybrid framework of data-driven (cascade forward neural network (CFNN)), metaheuristic (artificial bee colony (ABC)), and a mechanistic modeling (Aspen simulation) approach for the biomass pyrolysis process for bio-oil production. We applied CFNN and an ABC to predict and optimize bio-oil yield. The CFNN model achieved high prediction performance with a correlation coefficient value of 0.95 and a root mean squared error value of 0.39. Furthermore, the CFNN-ABC derived optimum parameters were then validated using a mechanistic model of the pyrolysis process. The CFNN and Aspen simulation results were following the experimental results, with an average deviation of 5%. The feature importance showed that the internal information about biomass was more relevant than external factors for bio-oil yield. The partial dependence plots were developed to know the insights into the biomass pyrolysis process. This study presents a modeling and simulation platform for bio-oil production that can increase the waste-to-energy process and can be helpful for academia. |
Sponsor | The corresponding author would like to acknowledge Pakistan Science Foundation (grant number: PSF/CRP/C-NUST/T-Helix (47) ) for financial support and National University of Sciences & Technology for technical support. |
Language | en |
Publisher | Elsevier |
Subject | Artificial bee colony Aspen plus Bioenergy Biomass Cascade neural network Machine learning |
Type | Article |
Pagination | 337-345 |
Volume Number | 162 |
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Chemical Engineering [1175 items ]