This book comprehensively explores lignocellulosic bioethanol production, emphasizing sustainable engineering, process optimization, and regulatory frameworks. It explains the transition from fossil-based fuels to bioethanol, highlighting its potential as a renewable and eco-friendly alternative.
The chapters cover a wide spectrum of topics, starting with the fundamentals of biomass-to-bioethanol conversion, including feedstock logistics, lignocellulosic chemistry, and experimental design. It introduces advanced metabolic and omics-based genetic engineering strategies to enhance microbial efficiency in bioethanol production. The book further explores artificial intelligence-driven process modelling, fluid rheology, and unit operations in bioethanol refineries. Additionally, it integrates the concept of circular economy, sustainability assessments, and economic evaluations to establish a holistic approach to bioethanol production. It focuses on environmental legislation, compliance, and national and international regulatory frameworks governing biofuels.
This book is an essential resource for researchers, academicians, and professionals in biotechnology, biochemical engineering, renewable energy, and environmental sciences. It also serves as a valuable reference for policymakers and industry leaders seeking insights into the technological advancements and regulatory aspects of sustainable bioethanol production.
1. Transition from Fossil-Based Fuels to Lignocellulosic Biomass-Based
Biofuel Systems: An Overview.-
2. Bioethanol from Biomass Waste as an
Alternative and Sustainable Fuel.-
3. Advances in Feedstock Transport and
Logistic Supply Chain Development for Lignocellulosic Bioethanol Production.-
4. Understanding the complex chemistry of lignocellulosic biomass.-
5.
Advances in Lignocellulosic Biomass Pretreatment and Saccharification for
Bioethanol Production.-
6. Synthetic Biology Approaches to Engineer
Non-Conventional Yeasts for Lignocellulosic Bioethanol Production.-
7. Recent
Advances in Omics-Based Microbial Genetic Engineering in Lignocellulosic
Bioethanol Production.-
8. Design of Experiments in Lignocellulosic
Bioethanol Production.-
9. From Fields to Fuel: Ethanol Production from Rice
Residues for Sustainability: A Case Study.-
10. Potent Inhibitors in
Lignocellulosic Ethanol Production and Their Removal Techniques.-
11.
Advanced Artificial Intelligence-Based Process Modelling of Lignocellulosic
Bioethanol Production.-
12. Industry 4.0 based on real-time process
monitoring and control for sustainable bioethanol production.-
13. Lignin
Valorization in Lignocellulosic Bioethanol Production within Integrated
Biorefinery and Circular Economy Systems.-
14. Life Cycle Analysis and
Economic Evaluation of Bioethanol.-
15. Environmental legislation and
compliance in the green energy production system.-
16. National and
International Biofuel Regulatory Frameworks.
Dr. Shiv Prasad is a senior faculty member at ICAR-Indian Agricultural Research Institute, New Delhi, with over two decades of experience in teaching and research. His work focuses on biomass-to-biofuel conversion, crop residue utilization, microbial strain optimization for ethanol production, and environmental impact assessment of pollutants. He has contributed significantly to greenhouse gas monitoring, air pollution studies, and heavy metal contamination research. A recipient of prestigious national and international awards, he has authored multiple books and research papers that have been widely cited in the scientific community.
Dr. Vikas Chandra Gupta is an Assistant Professor at IILM (Institute of Integrated Learning in Management) University, Greater Noida, specializing in biotechnology, environmental sustainability, and waste management. With a background in bioethanol production, hydroponic wastewater treatment, and membrane filtration technologies, he has worked on government-funded projects and served as a research consultant in the circular economy. His expertise spans biofuels, industrial waste valorization, and experimental design.
Dr. Meenu Singh is a Professor at IILM University, Greater Noida, with a strong research focus on biofuel technologies, bioremediation, and molecular biotechnology. She has led multiple funded projects on sustainable biofuels and advanced filtration techniques. With an extensive publication record, she is recognized for her contributions to environmental and industrial biotechnology.
Dr. Mohd. Zafar is an Assistant Professor at the University of Technology and Applied Sciences - Sur, Oman, with expertise in waste valorization, microbial bioconversion, and AI-driven bio/chemical process modeling. He has extensive research experience, including postdoctoral work in South Korea, and has significantly contributed to sustainable waste management and biopolymer production.
