This book covers recent developments in process systems engineering (PSE) for efficient resource use in biomass conversion systems. It provides an overview of process development in biomass conversion systems with focus on biorefineries involving the production and coproduction of fuels, heating, cooling, and chemicals. The scope includes grassroots and retrofitting applications. In order to reach high levels of processing efficiency, it also covers techniques and applications of natural–resource (mass and energy) conservation. Technical, economic, environmental, and social aspects of biorefineries are discussed and reconciled. The assessment scales vary from unit– to process– and life–cycle or supply chain levels. The chapters are written by leading experts from around the world, and present an integrated set of contributions. Providing a comprehensive, multi–dimensional analysis of various aspects of bioenergy systems, the book is suitable for both academic researchers and energy professionals in industry. INDICE: List of Contributors .Preface .Acknowledgements .Part 1: Process Design Tools for Biomass Conversion System .1. Early stage design and analysis of biorefinery networksPeam Cheali, Alberto Quaglia, Carina L. Gargalo, Krist V. Gernaey, Gürkan Sin and Rafiqul Gani .2. Application of a hierarchical approach for the synthesis of biorefineriesCarolina Conde–Mejía, Arturo Jiménez–Gutiérrez and Mahmoud M. El–Halwagi .3. Systematic approach for synthesis of an integrated palm oil–based biorefineryRex T. L. Ng and Denny K. S. Ng .4. Design strategies for integration of biorefinery concepts at existing industrial process sites: Case study of a biorefinery producing ethylene from lignocellulosic feedstock as an intermediate platform for a chemical clusterRoman Hackl and Simon Harvey .5. Synthesis of Biomass–based Trigeneration Systems with Variations in Biomass Supply and Energy DemandViknesh Andiappa1, Denny K. S. Ng and Santanu Bandyopadhyay .Part 2: Regional Biomass Supply Chains and Risk Management .6. Large–scale cultivation of microalgae for fuelChristina E. Canter, Luis F. Razon and Paul Blowers .7. Optimal planning sustainable supply chains for the production of Ambrox® based on Ageratina Jocotepecana in MexicoSergio I. Martínez–Guido, J. Betzabe González–Campos, Rosa E. Del Río, José M. Ponce–Ortega, Fabricio Nápoles–Rivera and Medardo Serna–González .8. Inoperability input–output modeling (IIM) approach to risk analysis in biomass–based supply chainsKrista Danielle S. Yu, Kathleen B. Aviso, Mustafa Kamal Abdul Aziz, Noor Azian Morad, Michael Angelo B. Promentilla, Joost R. Santos and Raymond R. Tan .Part 3: Other Applications of Biomass Conversion System .9. Process systems engineering tools for biomass polygeneration systems with carbon capture and reuseJhuma Sadhukhan, Kok Siew Ng and Elias Martinez–Hernandez .10. Biomass fueled organic Rankine cycle based cogeneration system (Nishith B. Desai and Santanu Bandyopadhyay) .11. Novel methodologies for optimal product design from biomassLik Yin Ng, Nishanth G. Chemmangattuvalappil and Denny K. S. Ng .12. Comparative advantages in biotechnological and catalytic processes with respect to process integration conceptsAikaterini D. Mountraki, Konstantinos R. Koutsospyros, and Antonis C. Kokossis .13. Determination of optimum condition for the production of rice husk–derived bio–oil by slow pyrolysis processSuzana Yusup, Tan Chiang Jinn, Bawadi Abdullah and Yiin Chung Loong .14. Overview of safety and health assessment for biofuel production technologiesMimi H. Hassim, Liew W. Hui and Denny K. S. Ng
- ISBN: 978-1-118-69915-7
- Editorial: Wiley–Blackwell
- Encuadernacion: Cartoné
- Páginas: 384
- Fecha Publicación: 12/01/2016
- Nº Volúmenes: 1
- Idioma: Inglés