Description: FREE SHIPPING UK WIDE Process Systems Engineering for Biofuels Development by Gade Pandu Rangaiah, Christian V. Stevens, Adrian Bonilla-Petriciolet 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 productionProcess analysis of biodiesel production (including kinetic modeling, simulation and optimization)The use of ultrasonification in biodiesel productionThermochemical processes for biomass transformation to biofuelsProduction 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. FORMAT Hardcover LANGUAGE English CONDITION Brand New Back Cover Process Systems Engineering for Biofuels Development 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. For more information on the Wiley Series in Renewable Resources, Flap Process Systems Engineering for Biofuels Development 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. For more information on the Wiley Series in Renewable Resources, Author Biography Editors Adrián Bonilla-Petriciolet, Department of Chemical Engineering, Instituto Tecnológico de Aguascalientes, Mexico Gade Pandu Rangaiah, Department of Chemical & Biomolecular Engineering, National University of Singapore, Singapore and School of Chemical Engineering, Vellore Institute of Technology, India Series Editor Christian Stevens, Faculty of Bioscience Engineering, Ghent University, Belgium Table of Contents List of Contributors xiii Series Preface xv Preface xvii 1 Introduction 1Adrián Bonilla-Petriciolet and Gade Pandu Rangaiah 1.1 Importance of Biofuels and Overview of their Production 1 1.2 Significance of Process Systems Engineering for Biofuels Production 3 1.2.1 Modeling of Physicochemical Properties of Thermodynamic Systems Related to Biofuels 4 1.2.2 Intensification of the Biomass Transformation Routes for the Production of Biofuels 5 1.2.3 Computer-Aided Methodologies for Process Modeling, Design, Optimization, and Control Including Supply Chain and Life Cycle Analyses 7 1.3 Overview of this Book 9 References 11 2 Waste Biomass Suitable as Feedstock for Biofuels Production 15Maria Papadaki 2.1 Introduction 15 2.1.1 The Need for Biofuels 15 2.1.2 Problem Definition 17 2.1.3 The Biomass Pool 18 2.2 Kinds of Feedstock 20 2.2.1 Spent Coffee Grounds 21 2.2.2 Lignocellulose Biomass 22 2.2.3 Palm, Olive, Coconut, Avocado, and Argan Oil Production Residues 25 2.2.4 Citrus 33 2.2.5 Grape Marc 36 2.2.6 Waste Oil and Cooking Oil 37 2.2.7 Additional Sources 38 2.3 Conclusions 40 Acknowledgment 40 References 40 3 Multiscale Analysis for the Exploitation of Bioresources: From Reactor Design to Supply Chain Analysis 49Antonio Sánchez, Borja Hernández, and Mariano Martín 3.1 Introduction 49 3.2 Unit Level 50 3.2.1 Short Cut Methods 50 3.2.2 Mechanistic Models 51 3.2.3 Rules of Thumb 56 3.2.4 Dimensionless Analysis 56 3.2.5 Surrogate Models 56 3.2.6 Experimental Correlations 59 3.3 Process Synthesis 60 3.3.1 Heuristic Based 60 3.3.2 Supestructure Optimization 61 3.3.3 Environmental Impact Metrics 65 3.3.4 Safety Considerations 66 3.4 The Product Design Problem 66 3.4.1 Product Design: Engineering Biomass 66 3.4.2 Blending Problems 68 3.5 Supply Chain Level 68 3.5.1 Introduction 68 3.5.2 Modeling Issues 70 3.6 Multiscale Links and Considerations 71 Acknowledgment 74 Nomenclature 74 References 75 4 Challenges in the Modeling of Thermodynamic Properties and Phase Equilibrium Calculations for Biofuels Process Design 85Roumiana P. Stateva and Georgi St. Cholakov 4.1 Introduction 85 4.2 Thermodynamic Modeling Framework: Elements, Structure, and Organization 86 4.3 Thermodynamics of Biofuel Systems 88 4.3.1 Phase Equilibria 88 4.3.2 Thermodynamic Models 90 4.4 Sources of Data for Biofuels Process Design 98 4.5 Methods for Predicting Data for Biofuels Process Design 102 4.5.1 Group Contribution Methods for Biofuels Process Design 103 4.5.2 Quantitative Structure–Property Relationships for Biofuels Process Design 105 4.6 Challenges for the Biofuels Process Design Methods 109 4.7 Influence of Uncertainties in Thermophysical Properties of Pure Compounds on the Phase Behavior of Biofuel Systems 112 4.8 Conclusions 114 Acknowledgment 114 Exercises 114 References 115 5 Up-grading ofWaste Oil: A Key Step in the Future of Biofuel Production 121Luigi di Bitonto and Carlo Pastore 5.1 Introduction 121 5.2 Physicochemical Pretreatments of Waste Oils: Removal of Contaminants 124 5.3 Direct Treatment and Conversion of FFAs into Methyl Esters 125 5.3.1 Homogeneous Catalysis: BrØnsted and Lewis Acids 125 5.3.2 Heterogeneous Catalysis 127 5.3.3 Enzymatic Biodiesel Production 128 5.3.4 ILs Biodiesel Production 130 5.3.5 Use of Metal Hydrated Salts 133 5.4 Future Trends of the Pretreatments of Waste Oils 139 5.5 Conclusions 140 Acknowledgment 141 Abbreviations 141 References 142 6 Production of Biojet Fuel from Waste Raw Materials: A Review 149Ana Laura Moreno-Gómez, Claudia Gutiérrez-Antonio, Fernando Israel Gómez-Castro, and Salvador Hernández 6.1 Introduction 149 6.2 Waste Triglyceride Feedstock 150 6.3 Waste Lignocellulosic Feedstock 159 6.4 Waste Sugar and Starchy Feedstock 164 6.5 Main Challenges and Future Trends 165 6.6 Conclusions 167 Acknowledgments 167 References 167 7 Computer-Aided Design for Genetic Modulation to Improve Biofuel Production 173 Feng-Sheng Wang and Wu-Hsiung Wu 7.1 Introduction 173 7.2 Method 175 7.2.1 Flux Balance Analysis 175 7.2.2 Flux Variability Analysis 176 7.2.3 Minimization of Metabolic Adjustment 176 7.2.4 Regulatory On-Off Minimization 177 7.2.5 Optimal Strain Design Problem 177 7.3 Computer-Aided Strain Design Tool 179 7.4 Examples 181 7.4.1 E. coli Core Model 181 7.4.2 Genome-Scale Metabolic Model of E. coli iAF1260 183 7.5 Conclusions 185 Appendix 7.A: The SBP Program 187 References 187 8 Implementation of Biodiesel Production Process Using Enzyme-Catalyzed Routes 191Thalles Allan Andrade, Massimiliano Errico, and Knud Villy Christensen 8.1 Introduction 191 8.2 Biodiesel Production Routes: Chemical versus Enzymatic Catalysts 194 8.2.1 Chemical Catalysts 195 8.2.2 Enzymatic Catalysts 196 8.3 Optimal Reaction Conditions and Kinetic Modeling 198 8.3.1 Evaluation of the Reaction Conditions 199 8.3.2 Kinetic Modeling 201 8.4 Process Simulation and Economic Evaluation 205 8.5 Reuse of Enzyme for the Transesterification Reaction 210 8.5.1 Recovery of Eversa Transform by Means of Centrifugation 210 8.5.2 Recovery of Eversa Transform by Means of Ceramic Membranes 211 8.6 Environmental Impact and Final Remarks 215 Acknowledgments 217 Nomenclature 217 References 217 9 Process Analysis of Biodiesel Production – Kinetic Modeling, Simulation, and Process Design 221Bruna Ricetti Margarida, Wanderson Rogerio Giacomin-Junior, Luiz Fernando de Lima Luz Junior, Fernando Augusto Pedersen Voll, and Marcos Lucio Corazza 9.1 Introduction 221 9.1.1 Homogeneous-Based Reactions 222 9.1.2 Heterogeneous-Based Reactions 223 9.1.3 Enzyme-Catalyzed Reactions 224 9.1.4 Supercritical Route Reactions 224 9.1.5 Methanol or Ethanol for Biodiesel Synthesis 224 9.2 Getting Started with Aspen Plus V10 224 9.2.1 Pure Compounds 225 9.2.2 Mixture Parameters 229 9.3 Kinetic Study 232 9.3.1 Esterification Reaction 232 9.3.2 Experimental Reaction Data Regression 234 9.3.3 Transesterification Reaction 236 9.3.4 Supercritical Route 238 9.4 Process Design 239 9.4.1 Esterification Reaction 239 9.4.2 Methanol Recycling 243 9.4.3 Transesterification Reaction 244 9.4.4 Biodiesel Purification 245 9.4.5 Additional Resources 248 9.5 Energy and Economic Analysis 252 9.6 Concluding Remarks 254 Acknowledgment 255 Exercises 255 References 256 10 Process Development, Design and Analysis of Microalgal Biodiesel Production Aided by Microwave and Ultrasonication 259Dipesh S. Patle, Savyasachi Shrikhande, and Gade Pandu Rangaiah 10.1 Introduction 259 10.2 Process Development and Modeling 262 10.3 Sizing and Cost Analysis 272 10.4 Comparison with the WCO-Based Process of the Same Capacity 277 10.4.1 Biodiesel Process Using WCO as Raw Material 277 10.4.2 Comparative Analysis 277 10.5 Comparison with the Microalgae-Based Processes 280 10.6 Conclusions 280 Acknowledgment 281 Appendix 10.A 281 Exercises 282 References 282 11 Thermochemical Processes for the Transformation of Biomass into Biofuels 285Carlos J. Durán-Valle 11.1 Introduction 285 11.2 Biomass and Biofuels 288 11.3 Combustion 289 11.4 Gasification 290 11.4.1 Fixed Bed Gasification 291 11.4.2 Fluidized Bed Gasification 292 11.4.3 Dual Fluidized Bed Gasification 292 11.4.4 Hydrothermal Gasification 293 11.4.5 Supercritical Water Gasification 294 11.4.6 Plasma Gasification 294 11.4.7 Catalyzed Gasification 295 11.4.8 Fischer–Tropsch Synthesis 295 11.5 Liquefaction 296 11.6 Pyrolysis 296 11.6.1 Slow Pyrolysis 297 11.6.2 Fast Pyrolysis 297 11.6.3 Flash Pyrolysis 297 11.6.4 Catalytic Biomass Pyrolysis 303 11.6.5 Microwave Heating 304 11.6.6 Product Separation 304 11.7 Carbonization 305 11.8 Conclusions 308 Acknowledgments 309 References 309 12 Intensified Purification Alternative for Methyl Ethyl Ketone Production: Economic, Environmental, Safety and Control Issues 311Eduardo Sánchez-Ramírez, Juan José Quiroz-Ramírez, and Juan Gabriel Segovia-Hernández 12.1 Introduction 311 12.2 Problem Statement and Case Study 316 12.3 Evaluation Indexes and Optimization Problem 317 12.3.1 Total Annual Cost Calculation 319 12.3.2 Environmental Index Calculation 319 12.3.3 Individual Risk Index 320 12.3.4 Controllability Index Calculation 322 12.3.5 Multi-Objective Optimization Problem 323 12.4 Global Optimization Methodology 324 12.5 Results 325 12.6 Conclusions 335 Acknowledgments 335 Notation 335 References 336 13 Present and Future of Biofuels 341Juan Gabriel Segovia-Hernández, César Ramírez-Márquez, and Eduardo Sánchez-Ramírez 13.1 Introduction 341 13.2 Some Representative Biofuels 344 13.2.1 Bioethanol 344 13.2.2 Biodiesel 347 13.2.3 Biobutanol 348 13.2.4 Biojet Fuel 349 13.2.5 Biogas 351 13.3 Perspectives and Future of Biofuels 352 References 354 Index 357 Details ISBN1119580277 Year 2020 ISBN-10 1119580277 ISBN-13 9781119580270 Format Hardcover Language English Pages 384 Publication Date 2020-08-27 DEWEY 662.88 UK Release Date 2020-08-27 Country of Publication United States AU Release Date 2020-08-27 NZ Release Date 2020-08-27 US Release Date 2020-08-27 Publisher John Wiley & Sons Inc Author Adrian Bonilla-Petriciolet Series Wiley Series in Renewable Resource Imprint John Wiley & Sons Inc Place of Publication New York Edited by Adrian Bonilla-Petriciolet Audience Professional & Vocational We've got this At The Nile, if you're looking for it, we've got it. 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ISBN-13: 9781119580270
Book Title: Process Systems Engineering for Biofuels Development
Number of Pages: 384 Pages
Language: English
Publication Name: Process Systems Engineering for Biofuels Development
Publisher: John Wiley & Sons AND Sons LTD
Publication Year: 2020
Subject: Engineering & Technology
Item Height: 251 mm
Item Weight: 820 g
Type: Textbook
Author: Adrian Bonilla-Petriciolet, Gade Pandu Rangaiah
Subject Area: Chemical Engineering
Series: Wiley Series in Renewable Resource
Item Width: 171 mm
Format: Hardcover