Overview
- Includes for first time the synthesis and intensified process design in the production of top biofuels
- Describes for first time the multi-objective optimization applied to the production of biofuels
- Presents dynamic studies of intensified processes for possible industrial application
Part of the book series: Green Energy and Technology (GREEN)
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About this book
This book describes for first time the synthesis and intensified process design in the production of top biofuels. The production of biofuels is not new. In 2019, global biofuel production levels reached 1,841 thousand barrels of oil equivalent per day, in stark comparison to the 187 thousand barrels of oil equivalent per day that was produced in 2000. Growth has largely been driven by policies that encourage the use and production of biofuels due to the perception that it could provide energy security and reduce greenhouse gas emissions in relevant sectors. From a technical point of view, almost all fuels from fossil resources could be substituted by their bio-based counterparts. However, the cost of bio-based production in many cases exceeds the cost of petrochemical production. Also, biofuels must be proven to perform at least as good as the petrochemical equivalent they are substituting and to have a lower environmental impact. The low price of crude oil acted as a barrier to biofuels production and producers focussed on the specific attributes of biofuels such as their complex structure to justify production costs.
Also, the consumer demand for environmentally friendly products, population growth and limited supplies of non-renewable resources has now opened new windows of opportunity for biofuels. The industry is increasingly viewing chemical production from renewable resources as an attractive area for investment. This book uniquely introduces the application of new process intensification techniques that will allow the generation of clean, efficient and economical processes for biofuels in a competitive way in the market.
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Keywords
Table of contents (10 chapters)
Authors and Affiliations
About the authors
Prof. Dr. Juan Gabriel Segovia-Hernández, Professor at Department of Chemical, Engineering of University of Guanajuato (México) has strong expertise in synthesis, design and optimization of (bio) processes. He has contributed to defining systematic methodologies to found, in a complete way, optimum sustainable and green processes for the production of several commodities. He also applied his methodologies to the production of biofuels and bio-based building blocks. Products of his research are more than 140 papers published in high impact factor-indexed journals, 3 books with prestigious international publishers and four patent registers. In addition, he acts as Reviewer for over 25 top journals in chemical engineering, energy and applied chemistry. For the pioneering work and remarkable achievements in his area of scientific research, he was National President of Mexican Academy of Chemical Engineering (2013-2015) and Member of "Mexican Academy of Science" (since 2012). Also, he is“Associate Editor” of “Chemical Engineering and Processing: Process Intensification Journal” (Elsevier).
Bibliographic Information
Book Title: Sustainable Production of Biofuels Using Intensified Processes
Authors: Juan Gabriel Segovia-Hernández, Eduardo Sanchez-Ramirez, Heriberto Alcocer-Garcia, Ana Gabriela Romero-Garcia, Juan José Quiroz-Ramirez
Series Title: Green Energy and Technology
DOI: https://doi.org/10.1007/978-3-031-13216-2
Publisher: Springer Cham
eBook Packages: Energy, Energy (R0)
Copyright Information: The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2022
Hardcover ISBN: 978-3-031-13215-5Published: 30 September 2022
Softcover ISBN: 978-3-031-13218-6Published: 02 October 2023
eBook ISBN: 978-3-031-13216-2Published: 28 September 2022
Series ISSN: 1865-3529
Series E-ISSN: 1865-3537
Edition Number: 1
Number of Pages: XII, 207
Number of Illustrations: 8 b/w illustrations, 57 illustrations in colour
Topics: Renewable and Green Energy, Industrial Chemistry/Chemical Engineering