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<p>About the Editors ix</p> <p>Preface xi</p> <p><b>PART I: PROMISING INNOVATION IN BIOMASS CONVERSION</b></p> <p>1 Metabolic Engineering: Enabling Technology for Biofuels Production 3<br /><i>Mitchell Tai and Gregory N. Stephanopoulos</i></p> <p>2 Hydrolysis and Fermentation for Cellulosic Ethanol Production 11<br /><i>Charilaos Xiros, Evangelos Topakas and Paul Christakopoulos</i></p> <p>3 Lipid-Based Liquid Biofuels from Autotrophic Microalgae: Energetic and Environmental Performance 33<br /><i>Lucas Reijnders</i></p> <p>4 Catalytic Pyrolysis of Biomass for Transportation Fuels 45<br /><i>Angelos A. Lappas, Kostas G. Kalogiannis, Eleni F. Iliopoulou, Kostas S. Triantafyllidis and Stylianos D. Stefanidis</i></p> <p>5 Integrated Biomass Hydropyrolysis and Hydrotreating: A Brief Review 57<br /><i>Martin Linck, Larry Felix, Terry Marker and Michael Roberts</i></p> <p>6 Transportation Fuels from Biomass via Fast Pyrolysis and Hydroprocessing 65<br /><i>Douglas C. Elliott</i></p> <p>7 Biomass Gasification for Synthesis Gas Production and Applications of the Syngas 73<br /><i>Reinhard Rauch, Jitka Hrbek and Hermann Hofbauer</i></p> <p>8 Hydrogen Generation from Biomass Materials: Challenges and Opportunities 93<br /><i>Pravakar Mohanty, Kamal K. Pant and Ritesh Mittal</i></p> <p>9 Production of Renewable Hydrogen by Reformation of Biofuels 109<br /><i>Paraskevi Panagiotopoulou, Christina Papadopoulou, Haris Matralis and Xenophon Verykios</i></p> <p>10 Fischer–Tropsch Conversion of Biomass-Derived Synthetic Gas to Liquid Fuels 131<br /><i>Andreas Helland Lillebø, Anders Holmen, Bjørn Christian Enger and Edd Anders Blekkan</i></p> <p>11 Critical Factors for High Temperature Processing of Biomass from Agriculture and Energy Crops to Biofuels and Bioenergy 149<br /><i>Stelios Arvelakis and Emmanuel G. Koukios</i></p> <p>12 Second-Generation Biofuels:Why They are Taking so Long 163<br /><i>Daniel J. M. Hayes</i></p> <p>13 Separation Technologies for Current and Future Biorefineries—Status and Potential of Membrane-Based Separation 193<br /><i>Lan Ying Jiang and Jia Ming Zhu</i></p> <p>14 Catalysis at Room Temperature: Perspectives for Future Green Chemical Processes 209<br /><i>Frank Leung-Yuk Lam, Michael C. L. Li, Rock S. L. Chau, Rick A. D. Arancon, Xijun Hu and Rafael Luque</i></p> <p>15 Co-Firing of Biomass with Coal in Thermal Power Plants: Technology Schemes, Impacts, and Future Perspectives 233<br /><i>Emmanouil Karampinis, Panagiotis Grammelis, Michalis Agraniotis, Ioannis Violidakis and Emmanuel Kakaras</i></p> <p><b>PART II: CHALLENGES AND SOLUTIONS FOR BIOMASS SUPPLY</b></p> <p>16 Bioenergy and Land Use Change—State of the Art 251<br /><i>G¨oran Berndes, Serina Ahlgren, P??al B¨orjesson, and Annette L. Cowie</i></p> <p>17 Forest Energy Procurement: State of the Art in Finland and Sweden 273<br /><i>Johanna Routa, Antti Asikainen, Rolf Bj¨orheden, Juha Laitila and Dominik R¨oser</i></p> <p>18 Options for Increasing Biomass Output from Long-Rotation Forestry 285<br /><i>Gustaf Egnell and Rolf Bj¨orheden</i></p> <p>19 Recovery Rate of Harvest Residues for Bioenergy in Boreal and Temperate Forests: A Review 293<br /><i>Evelyne Thiffault, Ariane B´echard, David Par´e and Darren Allen</i></p> <p>20 Forest Bioenergy Feedstock Harvesting Effects on Water Supply 317<br /><i>Daniel G. Neary and Karen A. Koestner</i></p> <p>21 Best Management Practices for Forest Bioenergy Programs 333<br /><i>Daniel G. Neary</i></p> <p>22 Principles of Nutrient Management for Sustainable Forest Bioenergy Production 351<br /><i>Donald Mead and Charles Smith</i></p> <p>23 Crop Coefficients of Jatropha (Jatropha Curcas) and Pongamia (Pongamia Pinnata) UsingWater Balance Approach 363<br /><i>Kaushal K. Garg, Suhas P. Wani and A. V. R. Kesava Rao</i></p> <p>24 Brazilian Sugarcane Ethanol: Developments so far and Challenges for the Future 373<br /><i>Arnaldo Walter, Marcelo Valadares Galdos, Fabio Vale Scarpare, Manoel Regis Lima Verde Leal, Joaquim Eugˆenio Abel Seabra, Marcelo Pereira da Cunha, Michelle Cristina Araujo Picoli and Camila Ortolan Fernandes de Oliveira</i></p> <p>25 The Climate Benefit of Swedish Ethanol: Present and Prospective Performance 395<br /><i>P??al B¨orjesson, Serina Ahlgren and G¨oran Berndes</i></p> <p>26 Performance of Small-Scale Straw-to-Heat Supply Chains in Norway 411<br /><i>Helmer Belbo and Bruce Talbot</i></p> <p>27 Transport Sector in Ireland: Can 2020 National Policy Targets Drive Indigenous Biofuel Production to Success? 419<br /><i>Egle Gusciute, Ger Devlin, Fionnuala Murphy and Kevin McDonnell</i></p> <p>28 Prospects for Domestic Biofuels for Transport in Sweden 2030 Based on Current Production and Future Plans 431<br /><i>Maria Grahn and Julia Hansson</i></p> <p>29 Land and the Food–Fuel Competition: Insights from Modeling 447<br /><i>Sylvia Prieler, G¨unther Fischer and Harrij van Velthuizen</i></p> <p>30 The Impact of Biofuel Demand on Agricultural Commodity Prices: A Systematic Review 465<br /><i>U. Martin Persson</i></p> <p>31 How do Sustainability Standards Consider Biodiversity? 483<br /><i>Oskar Englund and G¨oran Berndes</i></p> <p>32 A Global Survey of Stakeholder Views and Experiences for Systems Needed to Effectively and Efficiently Govern Sustainability of Bioenergy 507<br /><i>Inge Stupak, Jamie Joudrey, C. Tattersall Smith, Luc Pelkmans, Helena Chum, Annette Cowie, Oskar Englund, Chun Sheng Goh and Martin Junginger</i></p> <p>Index 535</p>

<p><b>Peter D. Lund</b> is Professor in Advanced Energy Systems at Aalto University (Helsinki) where he chairs the multidisciplinary Energy Science Initiative. He is also a Visiting Professor in Wuhan, China. His primary interest is in sustainable energy systems, innovations, and policies.<br />Dr. Lund is active in senior roles with EU initiatives in energy: he chaired the Advisory Group Energy of E.C. 2002-06, he chairs the Energy Steering Panel of European Academies Science Advisory Council (EASAC) and is a steering committee member of Euro-CASE energy platform. He has served in advisory role in many energy programmes world wide, including IEA, EIT, Baltic and Russia cooperation. Dr. Lund is Editor-in-Chief for Interdisciplinary Reviews: Energy and Environment and European Editor for International Journal of Energy Research (Wiley). Peter Lund has given numerous invited talks and written over 500 research papers on energy.</p> <p><b>John Byrne</b> is Director of the Center for Energy and Environmental Policy (CEEP) and Distinguished Professor of Energy and Climate Policy at the University of Delaware. He has contributed to Working Group III of the United Nations-sponsored Intergovernmental Panel on Climate Change (IPCC) since 1992 and shares the 2007 Nobel Peace Prize with the Panel’s authors and review editors. He holds several senior academic, advisory and policy advisor positions, among others in South Korea, China, India and the USA. His work in the US includes service as an advisor to the National Council for Science and the Environment (US) and the Interagency Working Group on Environmental Justice, coordinated by the US EPA. Dr Byrne created the first undergraduate and graduate degrees in the United States in the combined area of energy and environmental policy and a recent external review conducted by a committee of internationally respected scholars rated the CEEP graduate program among the three best in the field. He has published 17 books and over 150 research articles.</p> <p><b>Göran Berndes</b> is Associate Professor in Energy and Environment at Chalmers University of Technology in Sweden. He is also Associate of the International Institute for Sustainability Analysis and Strategy (IINAS) and Stockholm International Water Institute (SIWI). His research integrates land use and energy systems at scales ranging from local case studies to the global context, addressing technology, ecology as well as governance issues. Dr. Berndes has contributed as Expert Reviewer and Author to Working Group III of  the IPCC and has served as international Task leader in IEA Bioenergy since 2007. He was awarded the Nordic Council of Ministers' Bioenergy prize in 2010. He currently chairs the Activity Group on Bioenergy and Water within the Global Bioenergy Partnership (GBEP) and is manager for the profile area Energy in a Circular Economy within Chalmers Energy Area of Advance. Dr. Berndes is Associate Editor for Interdisciplinary Reviews: Energy and Environment and Consultant Editor for Biofuels, Bioproducts and Biorefining (Wiley).</p> <p><b>Iacovos A. Vasalos</b> was a Professor at Aristotle University of Thessaloniki, Department of Chemical Engineering from 1979 to 2005. He is currently Emeritus Researcher at the Chemical Process and Energy Resources Institute (CPERI), Centre for Research and Technology Hellas (CERTH). He started his career in the Amoco Research Center in Naperville, Illinois, where he worked for 10 years from 1969 to 1979, as a research engineer, project manager, process specialist in catalytic cracking, research supervisor, and as a consultant until 1999. He is the author or coauthor of 132 scientific publications and 43 international patents many of which have been successfully applied in refineries. He was instrumental in founding and organizing CPERI and CERTH. He was also actively involved in a series of EU-funded projects in areas such as clean fossil fuels, syngas production, biofuels, environmental catalysis with emphasis on catalytic reaction engineering and modelling coupled with overall process simulation.</p>

<p>The increasing deployment of bioenergy frequently raises issues regarding the use of land and raw materials, infrastructure and logistics. In light of these sometimes conflicting interests <i>Advances in Bioenergy </i>provides an objective and wide-ranging overview of the technology, economics and policy of bioenergy. </p> <p>Offering an authoritative multidisciplinary summary of the opportunities and challenges associated with bioenergy utilization, with international researchers give up-to-date and detailed information on key issues for biomass production and conversion to energy.</p> <p>Key features: </p> <ul> <li>Discusses different bioenergy uses such as transportation fuels, electricity and heat production. </li> <li>Assesses emerging fields such as bio-based chemicals and bio-refineries. </li> <li>Debates conditions for the mobilization of sustainable bioenergy supply chains and outlines governance systems to support this mobilization.</li> <li>Dedicated chapters to sustainability governance and emerging tools such as certification systems and standards supporting growth of a sustainable bioenergy industry.</li> <li>Considers the political, environmental, social and cultural context related to the demand for energy resources, the impact of this demand on the world around us, and the choices and behaviours of consumers.</li> </ul> <p>This book will be a vital reference to engineers, researchers and students that need an accessible overview of the bioenergy area. It will also be of high value for politicians, policymakers and industry leaders that need to stay up to date with the state-of-the-art science and technology in this area.</p>

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