By Chinnadurai Karunanithy and Kasiviswanathan Muthukumarappan. By Atsushi Tsutsumi and Yasuki Kansha. By Venderbosch R. Ahmad, Yoshimitsu Uemura, Vuoi S.
Chok, Umer Rashid and Abrar Inayat. Zebda, C. Innocent, L. Renaud, M. Cretin, F. Pichot, R. Ferrigno and S. This is made possible by the EU reverse charge method. Edited by Margarita Stoytcheva. Edited by Anuj Chandel. Edited by Zhen Fang.
Edited by Shahid Shaukat. Edited by Sunil Kumar. Edited by Maggy Ndombo Benteke Momba. Published: August 1st DOI: Grande Open access peer-reviewed 4. Trindade Open access peer-reviewed 6. Rosentrater Open access peer-reviewed 8.
Oyler Open access peer-reviewed Focusing on the challenges of, and technologies related to, biomass conversion, the book is divided into three parts. The first part underlines the fundamental concepts that form the basis of biomass production, its feasibility valuation, and its potential utilization.
This part does not consider only how biomass is generated, but also methods of assessment. The second part focuses on the clarification of central concepts of the biorefinery processes. After a preliminary introduction with industrial examples, common issues of biochemical reaction engineering applications are analysed in detail. The theory explained in this part demonstrates that the chemical kinetics are the core focus in modelling biological processes such as growth, decay, product formation and feedstock consumption.
This part continues with the theory of biofuels production, including biogas, bioethanol, biodiesel and Fischer-Tropsch synthesis of hydrocarbons. The third part of this book gives detailed explanations of preliminary notions related to the theory of thermodynamics.
This theory will assist the reader when taking into account the concepts treated in the previous two parts of the book. Several detailed derivations are given to give the reader a full understanding of the arguments at hand. This part also gives literature data on the main properties of some biomass feedstock. Fundamentals of Biofuels Engineering and Technology will be of interest not only to academics and researchers working in this field but also to graduate students and energy professionals seeking to expand their knowledge of this increasingly important area.
Case studies are provided alongside reviews from academic and industry perspectives, discussing economics and lifecycle assessments LCA of biofuel production, as well as analyses of supply chains.
Offering a comprehensive and timely overview, this book provides an ideal reference for researchers and practitioners working in bioenergy and renewable energy, but it will also be of interest to chemists, bioengineers, chemical engineers, and the agricultural and petrochemical industries.
Helps readers gain academic and industry perspectives on biofuel production with the inclusion of lab-based experimentation and informative case studies Contains an exhaustive analysis of biomass conversion technologies for biofuels and biochemicals Provides a clear and concise text that avoids the overuse of jargon and technical language.
Each chapter begins with a fundamental explanation for general readers and ends with in-depth scientific details suitable for expert readers. It discusses different types of production technologies covering basic concepts, production strategies, commercial usage, and advances. As such, there is a need for low-cost bioprocessing. This book critically evaluates the available bioprocessing technologies for various biofuels, and presents the latest research in the field.
It also highlights the recent developments, current challenges and viable alternative approaches to reduce the overall cost of producing biofuels. This comprehensive reference presents the latest technology in all aspects of biofuels production, processing, properties, raw materials, and related economic and environmental aspects. Presenting the application of methods and technology with minimum math and theory, it compiles a wide range of topics not usually covered in one single book.
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