Indian Journal of Chemical Technology

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Application of Machine Learning in Optimizing Thermochemical Conversion Processes with Pre-treatment to Get Higher Bio-oil Yield from Biomass Waste


Affiliations
1 Department of Electronics and Communication Engineering, Mohamed Sathak AJ College of Engineering, IT Park, Siruseri, Rajiv Gandhi Salai (OMR), Chennai, Tamil Nadu – 603103, India
2 Department of Chemistry, Easwari Engineering College, Chennai - 600089, India

Improving the bio-oil yield was a challenging part in the thermochemical conversion processes. Implementing suitable pre-treatment technology to improve the biomass characteristics is an effective technique to increase the yield. In this study, a multi variate random forest algorithm was used to optimize the pre-treatment method in order to improve the biomass characteristics. The data collected from many previous studies were analysed to identify the importance of biomass characteristics in bio-oil yield. The correlation between biomass characteristics and bio-oil yield, was analysed using pearson method and the important influencing parameters %C and %H have a very good positive correlation with a coefficient value range 0.455 to 0.818. Among the six pre-treatment methods analysed, thermochemical pre-treatment method was found effective with more than 95% improvement of many biomass characteristics. The range of voting given to the parameters identify %H be the important characteristic optimized first. The suggested method was validated by laboratory experiments and %accuracy between predicted and calculated biomass characteristic values showed more than 90% accuracy for all the biomass characteristic parameters tested in this study.

Keywords

Biomass waste, Bio-oil, Machine learning, Pearson matrix, Pre-treatment, Thermochemical liquefaction
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  • Application of Machine Learning in Optimizing Thermochemical Conversion Processes with Pre-treatment to Get Higher Bio-oil Yield from Biomass Waste

Abstract Views: 27  | 

Authors

Srinivasan Kandasamy Sundaresan
Department of Electronics and Communication Engineering, Mohamed Sathak AJ College of Engineering, IT Park, Siruseri, Rajiv Gandhi Salai (OMR), Chennai, Tamil Nadu – 603103, India
Kamarajan Murugan
Department of Electronics and Communication Engineering, Mohamed Sathak AJ College of Engineering, IT Park, Siruseri, Rajiv Gandhi Salai (OMR), Chennai, Tamil Nadu – 603103, India
Cingaram Ravichandran
Department of Chemistry, Easwari Engineering College, Chennai - 600089, India

Abstract


Improving the bio-oil yield was a challenging part in the thermochemical conversion processes. Implementing suitable pre-treatment technology to improve the biomass characteristics is an effective technique to increase the yield. In this study, a multi variate random forest algorithm was used to optimize the pre-treatment method in order to improve the biomass characteristics. The data collected from many previous studies were analysed to identify the importance of biomass characteristics in bio-oil yield. The correlation between biomass characteristics and bio-oil yield, was analysed using pearson method and the important influencing parameters %C and %H have a very good positive correlation with a coefficient value range 0.455 to 0.818. Among the six pre-treatment methods analysed, thermochemical pre-treatment method was found effective with more than 95% improvement of many biomass characteristics. The range of voting given to the parameters identify %H be the important characteristic optimized first. The suggested method was validated by laboratory experiments and %accuracy between predicted and calculated biomass characteristic values showed more than 90% accuracy for all the biomass characteristic parameters tested in this study.

Keywords


Biomass waste, Bio-oil, Machine learning, Pearson matrix, Pre-treatment, Thermochemical liquefaction