The aim of this study is to identify the optimum thermal conversion of Chlorella vulgaris with neuro-evolutionary approach. A Progressive Depth Swarm-Evolution (PDSE) neuro-evolutionary approach is proposed to model the Thermogravimetric analysis (TGA) data of catalytic thermal degradation of Chlorella vulgaris. Results showed that the proposed method can generate predictions which are more accurate compared to other conventional approaches (>90% lower in Root Mean Square Error (RMSE) and Mean Bias Error (MBE)). In addition, Simulated Annealing is proposed to determine the optimal operating conditions for microalgae conversion from multiple trained ANN. The predicted optimum conditions were reaction temperature of 900.0 °C, heating rate of 5.0 °C/min with the presence of HZSM-5 zeolite catalyst to obtain 88.3% of Chlorella vulgaris conversion.

Brno University of Technology Institute of Process Engineering and NETME Centre Technicka 2896 2 616 69 Brno Czech Republic

Chemical Engineering Department Faculty of Engineering Computing and Science Swinburne University of Technology Jalan Simpang Tiga 93350 Kuching Sarawak Malaysia

Department of Chemical and Environmental Engineering University of Nottingham Malaysia Campus Jalan Broga 43500 Semenyih Selangor Malaysia

Department of Chemical Engineering Faculty of Engineering and Science Curtin University Malaysia CDT 250 98009 Miri Sarawak Malaysia

National HiCoE Thermochemical Conversion of Biomass Centre for Biofuel and Biochemical Research Institute of Sustainable Building Chemical Engineering Department Universiti Teknologi PETRONAS Seri Iskandar Perak 32610 Malaysia

Citace poskytuje Crossref.org

Transition Metal Dichalcogenides for the Application of Pollution Reduction: A Review