Process Systems Engineering for Biofuels Development 1st edition by Adrian BonillaPetriciolet, Christian Stevens, Gade Pandu Rangaiah 1119580331 9781119580331

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ISBN-10 :  1119580331 

ISBN-13 :  9781119580331

Author : Adrian BonillaPetriciolet, Christian V. Stevens, Gade Pandu Rangaiah 

A comprehensive overview of current developments and applications in biofuels production  Process Systems Engineering for Biofuels Development brings together the latest and most cutting-edge research on the production of biofuels. As the first book specifically devoted to process systems engineering for the production of biofuels, Process Systems Engineering for Biofuels Development covers theoretical, computational and experimental issues in biofuels process engineering.  Written for researchers and postgraduate students working on biomass conversion and sustainable process design, as well as industrial practitioners and engineers involved in process design, modeling and optimization, this book is an indispensable guide to the newest developments in areas including:  Enzyme-catalyzed biodiesel production  Process analysis of biodiesel production (including kinetic modeling, simulation and optimization)  The use of ultrasonification in biodiesel production  Thermochemical processes for biomass transformation to biofuels  Production of alternative biofuels  In addition to the comprehensive overview of the subject of biofuels found in the Introduction of the book, the authors of various chapters have provided extensive discussions of the production and separation of biofuels via novel applications and techniques. 

Process Systems Engineering for Biofuels Development 1st Table of contents:

1 Introduction
1.1 Importance of Biofuels and Overview of their Production
1.2 Significance of Process Systems Engineering for Biofuels Production
1.3 Overview of this Book
References
2 Waste Biomass Suitable as Feedstock for Biofuels Production
2.1 Introduction
2.2 Kinds of Feedstock
2.3 Conclusions
Acknowledgment
References
3 Multiscale Analysis for the Exploitation of Bioresources: From Reactor Design to Supply Chain Analysis
3.1 Introduction
3.2 Unit Level
3.3 Process Synthesis
3.4 The Product Design Problem
3.5 Supply Chain Level
3.6 Multiscale Links and Considerations
Acknowledgment
Nomenclature
References
4 Challenges in the Modeling of Thermodynamic Properties and Phase Equilibrium Calculations for Biofuels Process Design
4.1 Introduction
4.2 Thermodynamic Modeling Framework: Elements, Structure, and Organization
4.3 Thermodynamics of Biofuel Systems
4.4 Sources of Data for Biofuels Process Design
4.5 Methods for Predicting Data for Biofuels Process Design
4.6 Challenges for the Biofuels Process Design Methods
4.7 Influence of Uncertainties in Thermophysical Properties of Pure Compounds on the Phase Behavior of Biofuel Systems
4.8 Conclusions
Acknowledgment
Exercises
References
5 Up‐grading of Waste Oil: A Key Step in the Future of Biofuel Production
5.1 Introduction
5.2 Physicochemical Pretreatments of Waste Oils: Removal of Contaminants
5.3 Direct Treatment and Conversion of FFAs into Methyl Esters
5.4 Future Trends of the Pretreatments of Waste Oils
5.5 Conclusions
Acknowledgment
Abbreviations
References
6 Production of Biojet Fuel from Waste Raw Materials: A Review
6.1 Introduction
6.2 Waste Triglyceride Feedstock
6.3 Waste Lignocellulosic Feedstock
6.4 Waste Sugar and Starchy Feedstock
6.5 Main Challenges and Future Trends
6.6 Conclusions
Acknowledgments
References
7 Computer‐Aided Design for Genetic Modulation to Improve Biofuel Production
7.1 Introduction
7.2 Method
7.3 Computer‐Aided Strain Design Tool
7.4 Examples
7.5 Conclusions
Appendix 7.A The SBP Program
References
8 Implementation of Biodiesel Production Process Using Enzyme‐Catalyzed Routes
8.1 Introduction
8.2 Biodiesel Production Routes: Chemical versus Enzymatic Catalysts
8.3 Optimal Reaction Conditions and Kinetic Modeling
8.4 Process Simulation and Economic Evaluation
8.5 Reuse of Enzyme for the Transesterification Reaction
8.6 Environmental Impact and Final Remarks
Acknowledgments
Nomenclature
References
9 Process Analysis of Biodiesel Production – Kinetic Modeling, Simulation, and Process Design
9.1 Introduction
9.2 Getting Started with Aspen Plus V10
9.3 Kinetic Study
9.4 Process Design
9.5 Energy and Economic Analysis
9.6 Concluding Remarks
Acknowledgment
Exercises
References
10 Process Development, Design and Analysis of Microalgal Biodiesel Production Aided by Microwave and Ultrasonication
10.1 Introduction
10.2 Process Development and Modeling
10.3 Sizing and Cost Analysis
10.4 Comparison with the WCO‐Based Process of the Same Capacity
10.5 Comparison with the Microalgae‐Based Processes
10.6 Conclusions
Acknowledgment
Appendix 10.A
Exercises
References
11 Thermochemical Processes for the Transformation of Biomass into Biofuels
11.1 Introduction
11.2 Biomass and Biofuels
11.3 Combustion
11.4 Gasification
11.5 Liquefaction
11.6 Pyrolysis
11.7 Carbonization
11.8 Conclusions
Acknowledgments
References
12 Intensified Purification Alternative for Methyl Ethyl Ketone Production: Economic, Environmental, Safety and Control Issues
12.1 Introduction
12.2 Problem Statement and Case Study
12.3 Evaluation Indexes and Optimization Problem
12.4 Global Optimization Methodology
12.5 Results
12.6 Conclusions
Acknowledgments
References
13 Present and Future of Biofuels
13.1 Introduction
13.2 Some Representative Biofuels
13.3 Perspectives and Future of Biofuels

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Tags: Process Systems, Engineering, Biofuels Development, Adrian BonillaPetriciolet, Christian Stevens, Gade Pandu Rangaiah