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E-grāmata: Biofuels and Biorefining: Volume 2: Intensification Processes and Biorefineries

Edited by (Professor-Researcher, Universidad Autonoma de Queretaro, Santiago de Queretaro, Queretaro, Mexico), Edited by (Professor-Researcher, Universidad de Guanajuato, Guanajuato, Guanajuato, Mexico)
  • Formāts: EPUB+DRM
  • Izdošanas datums: 27-May-2022
  • Izdevniecība: Elsevier Science Publishing Co Inc
  • Valoda: eng
  • ISBN-13: 9780323859158
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Biofuels and Biorefining: Volume 2: Intensification Processes and BiorefineriesPalielināt
  • Formāts: EPUB+DRM
  • Izdošanas datums: 27-May-2022
  • Izdevniecība: Elsevier Science Publishing Co Inc
  • Valoda: eng
  • ISBN-13: 9780323859158
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Biofuels and Biorefining: Volume Two: Intensified Processes and Biorefineries considers intensification and optimization processes for biofuels and biomass-derived products in single and biorefinery schemes. Chapters cover production processes for liquid biofuels, introducing all feasible intensification alternatives for each process, process intensification methods for the production of value-added products, the importance of detailed CFD-based studies, controllability studies, strategies for risk analysis in intensified processes, the concept of biorefinery for the co-production of biofuels/biomass derived value-added products, and the importance of process intensification in the biorefinery scheme.

Final chapters discuss how to ensure the sustainability of the intensified process and minimize the societal impact of biorefineries through various strategies, including supply chain optimization and lifecycle analysis. Each chapter is supported by industry case studies that address key aspects and impacts of intensification and optimization processes.

  • Integrates basic concepts of process intensification and its application to the production of biofuels in a single resource
  • Includes case studies related to modeling, safety, control, supply chain, lifecycle analysis, and the CFD of biofuel production processes
  • Provides a sustainability assessment of biorefinery systems from a lifecycle perspective
Contributors ix
1 Process intensification in biofuels production
1(40)
Salvador Hernandez
1.1 Introduction
1(4)
1.2 Basic concepts on process intensification
5(8)
1.3 Conventional processes for the production of biofuels
13(9)
1.4 Intensified processes for the production of biofuels
22(8)
1.5 Conclusions
30(11)
References
30(11)
2 Sustainable bioalcohol production: Pretreatment, separation, and control strategies leading to sustainable processes
41(46)
Thiago Edwiges
Maria Cinta Roda-Serrat
Juan Gabriel Segovia-Hernandez
Eduardo Sanchez-Ramirez
Stefania Tronci
Massimiliano Errico
2.1 Introduction
41(2)
2.2 Lignocellulosic biomass
43(1)
2.3 Pretreatment technologies for lignocellulosic biomass
44(11)
2.4 Distillation-based bioalcohols separation processes
55(6)
2.5 Membrane-based processes for separation of bioalcohols
61(7)
2.6 Process control
68(4)
2.7 Bioethanol separation by membrane-assisted reactive distillation: A case study
72(6)
2.8 Conclusions
78(9)
Acknowledgments
79(1)
References
79(8)
3 A review of intensification technologies for biodiesel production
87(30)
Lai Fatt Chuah
Jiff Jaromir Klemes
Awais Bokhari
Saira Asif
Yoke Wang Cheng
Chi Cheng Chong
Pau Loke Show
3.1 Introduction
87(1)
3.2 Intensification technologies fof biodiesel production
88(23)
3.3 Conclusion
111(6)
Acknowledgments
112(1)
References
112(5)
4 Intensified technologies for the production of renewable aviation fuel
117(40)
Araceli Guadalupe Romero-Izquierdo
Salvador Hernandez
4.1 Introduction
117(4)
4.2 Processes intensification strategies in the production of biojet fuel
121(9)
4.3 Intensified processes to produce biojet fuel
130(2)
4.4 Implementation to industrial scale
132(2)
4.5 Case of study
134(15)
4.6 Conclusions
149(8)
Acknowledgments
149(1)
References
149(8)
5 Opportunities in the intensification of the production of biofuels for the generation of electrical and thermal energy
157(40)
Noemi Hernandez-Neri
Julio Armando de Lira-Flores
Araceli Guadalupe Romero-Izquierdo
Juan Fernando Garcia-Trejo
Claudia Gutierrez-Antonio
5.1 Introduction
157(3)
5.2 Conventional production processes
160(10)
5.3 Proposals for the intensification of the production processes
170(4)
5.4 Intensification of the production of fuel pellets
174(16)
5.5 Future trends
190(1)
5.6 Concluding remarks
190(7)
Acknowledgments
191(1)
References
191(6)
6 Intensified and hybrid distillation technologies for production of high value-added products from lignocellulosic biomass
197(34)
Le Cao Nhien
Junaid Haider
Nguyen Van Due Long
Moonyong Lee
6.1 Introduction
197(10)
6.2 Application of intensified and hybrid distillation technologies for high value-added processes from biomass
207(17)
6.3 Conclusions
224(7)
References
224(7)
7 Intensification of biodiesel production through computational fluid dynamics
231(42)
Harrson S. Santana
Marcos R.P. de Sousa
Joao L. Silva Junior
7.1 Introduction
231(4)
7.2 Brief introduction to CFD concepts
235(12)
7.3 Literature review
247(7)
7.4 Case study
254(13)
7.5 Conclusions and future perspectives
267(6)
References
268(5)
8 Control properties of intensified distillation processes: Biobutanol purification
273(20)
Ernesto Flores-Cordero
Eduardo Sanchez-Ramirez
Gabriel Contreras-Zarazua
Cesar Ramirez-Marquez
Juan Gabriel Segovia-Hernandez
8.1 Introduction
273(3)
8.2 Separation process for biobutanol
276(2)
8.3 Closed-loop analysis
278(12)
8.4 Conclusions
290(3)
References
291(2)
9 Assessment of modular biorefineries with economic, environmental, and safety considerations
293(12)
Alexandra Barron
Natasha Chrisandina
Antioco Lopez-Molina
Debalina Sengupta
Claire Shi
Mahmoud M. El-Halwagi
9.1 Introduction to modular biorefineries
293(2)
9.2 Approach
295(2)
9.3 Case study
297(4)
9.4 Conclusions
301(4)
References
302(3)
10 Production of biofuels and biobased chemicals in biorefineries and potential use of intensified technologies
305(56)
Alvaro Orjuela
Andrea del Pilar Orjuela
10.1 Introduction
305(4)
10.2 Evolution and implementation of industrial biorefineries
309(7)
10.3 Biorefineries and biobased chemicals market
316(3)
10.4 Key biobased fuels and chemicals for current industrial biorefineries
319(3)
10.5 Potential for process intensification at the biorefineries
322(6)
10.6 Implemented intensification technologies for bioderived chemicals
328(9)
10.7 Process intensification in action---Succinic acid production
337(4)
10.8 Some challenges and future directions
341(8)
10.9 Concluding remarks
349(12)
Acknowledgments
350(1)
References
350(11)
11 Modeling and optimization of supply chains: Applications to conventional and intensified biorefineries
361(28)
Fernando Israel Gomez-Castro
Yulissa Mercedes Espinoza-Vazquez
Jose Maria Ponce-Ortega
11.1 Introduction
362(2)
11.2 Objective functions for supply chain optimization
364(2)
11.3 Elements of the supply chain for a biorefinery
366(1)
11.4 Process intensification and supply chain
367(1)
11.5 Modeling and optimization of the supply chain
368(5)
11.6 Case study: Optimization of the supply chain for the production of bioethanol and high value-added products in Mexico
373(13)
11.7 Conclusion
386(3)
References
386(3)
12 Life cycle approach for the sustainability assessment of intensified biorefineries
389(16)
M. Collotta
P. Champagne
G. Tomasoni
W. Mabee
12.1 Introduction
389(1)
12.2 LCA methodology
390(1)
12.3 LCA tools
391(3)
12.4 State of the art of LCA in the biorefineries sector
394(2)
12.5 Social LCA methodology
396(2)
12.6 LCA at the early stage of development---Case study
398(3)
12.7 Conclusions
401(4)
References
401(4)
13 Social impact assessment in designing supply chains for biorefineries
405(22)
Sergio Ivan Martinez-Guido
Juan Fernando Garcia-Trejo
Jose Maria Ponce-Ortega
13.1 Introduction
405(1)
13.2 Current perspective of biorefinery systems: Conventional fuel replacement by bioenergy sources
406(2)
13.3 Biorefineries evaluation using optimization tools
408(1)
13.4 Supply chain optimization
409(1)
13.5 Problem statement
410(1)
13.6 Mathematical model
410(5)
13.7 Mathematical modeling solution
415(1)
13.8 Case study
416(6)
13.9 Conclusions
422(5)
Acknowledgments
422(2)
References
424(3)
Index 427
Dr. Claudia Gutiérrez-Antonio got her Master and Ph.D. degrees from Instituto Tecnológico de Celaya in 2003 and 2007, respectively. Currently, she is professor-researcher at Universidad Autónoma de Querétaro and she is member of the National Research System of Mexico. Her research interest is in the area of intensification and optimization of renewable aviation fuel production processes. She has published more than 30 papers, 8 book chapters and 1 book. Dr. Fernando Israel Gómez-Castro got his Master and Ph.D. degrees in Universidad de Guanajuato (2007) and Instituto Tecnológico de Celaya (2010), respectively. He stayed as scholar researcher at Texas A&M University. Currently, he is professor-researcher at Universidad de Guanajuato and he is member of the National Research System of Mexico. His research interest is in the area of control studies and optimization of biofuel production processes, including renewable aviation fuel. He has published 35 papers, 15 book chapters and 2 books.
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