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Solid Waste as a Renewable Resource: Methodologies [Kietas viršelis]

Edited by (Abengoa Research, Seville, Spain), Edited by (Abengoa Research, Seville, Spain)
  • Formatas: Hardback, 304 pages, aukštis x plotis: 229x152 mm, weight: 566 g, 102 Illustrations, black and white
  • Išleidimo metai: 24-Jul-2015
  • Leidėjas: Apple Academic Press Inc.
  • ISBN-10: 1771882433
  • ISBN-13: 9781771882439
Kitos knygos pagal šią temą:
Solid Waste as a Renewable Resource: MethodologiesDidesnis paveikslėlis
  • Formatas: Hardback, 304 pages, aukštis x plotis: 229x152 mm, weight: 566 g, 102 Illustrations, black and white
  • Išleidimo metai: 24-Jul-2015
  • Leidėjas: Apple Academic Press Inc.
  • ISBN-10: 1771882433
  • ISBN-13: 9781771882439
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9781771882439.html
Raktažodžiai:
This title includes a number of Open Access chapters.

The twenty-first century world faces several enormous challenges: how to mitigate climate change, meet a growing energy demand without relying on fossil fuels, and manage the escalating quantities of solid waste generated by cities around the world. This compendium volume offers a viable solution to all three: using solid waste as a renewable resource.

Intended for a wide audience ranging from engineers and academics to decision-makers in both the public and private sectors, this volume has gathered together research into a range of technologies and methodologies. The editors, two well-published researchers at the top of their field, have selected articles that lay the foundation for this discussion. They have then included chapters for the following waste management scenarios: anaerobic digestion, composting, pyrolysis and chemical upgrading, incineration and carbonization, and gasification.

Research has been included from around the world, representing potential international solutions to what are global challenges, as well as crucial implications for ongoing research in this important field of study.

Recenzijos

"A timely publication at present when environmental concerns and limited fossil fuel resources have called for a sustainable solution. In several important ways, the book is a comprehensive account of methodologies in waste-to-energy conversion. While the topic is of global interest, it is geographically diversified. There is no single best method that would apply everywhere. Therefore, a large number of methods are included. In addition, the full potential and possible drawbacks of each method have not been thoroughly exploited and revealed to date. An inclusive description of most of the promising methods will certainly draw a complete roadmap as a guideline for future exploration. Toward that goal, the authors not only discuss the chemistry itself, but also other important aspects, e.g., economics, resources and residential life styles that are strongly region-dependent. Most accounts come from realistic case studies and, this adds tremendous value, considering the nature of the topic being highly urgent and solution-driven." Tu N. Pham, PhD, Associate Engineer, R&D Hydroprocessing, Oklahoma

Acknowledgment and How to Cite ix
List of Contributors
xi
Introduction xvii
Part I Foundations
1 Energy Recovery from Municipal and Industrial Wastes: How Much Green?
3(4)
Satinder Kaur Brar
Saurabh Jyoti Sarma
Mausam Verma
2 Energy Recovery Potential and Life Cycle Impact Assessment of Municipal Solid Waste Management Technologies in Asian Countries Using ELP Model
7(28)
Andante Hadi Pandyaswargo
Hiroshi Onoda
Katsuya Nagata
Part II Anaerobic Digestion
3 Utilization of Household Food Waste for the Production of Ethanol at High Dry Material Content
35(20)
Leonidas Matsakas
Dimitris Kekos
Maria Loizidou
Paul Christakopoulos
4 Production of Fungal Glucoamylase for Glucose Production from Food Waste
55(18)
Wan Chi Lam
Daniel Pleissner
Carol Sze Ki Lin
Part III Composting
5 Changes in Selected Hydrophobic Components During Composting of Municipal Solid Wastes
73(14)
Jakub Bekier
Jerzy Drozd
Elzbieta Jamroz
Bogdan Jarosz
Andrzej Kocowicz
Karolina Walenczak
Jerzy Weber
6 Transforming Municipal Waste into a Valuable Soil Conditioner through Knowledge-Based Resource-Recovery Management
87(16)
Golabi Mh
Kirk Johnson
Takeshi Fujiwara
Eri Ito
Part IV Pyrolysis and Chemical Upgrading
7 Furfurals as Chemical Platform for Biofuels Production
103(44)
Daniel E. Resasco
Surapas Sitthisa
Jimmy Faria
Teerawit Prasomsri
M. Pilar Ruiz
Part V Incineration and Carbonization
8 Incineration of Pre-Treated Municipal Solid Waste (MSW) for Energy Co-Generation in a Non-Densely Populated Area
147(24)
Ettore Trulli
Vincenzo Torretta
Massimo Raboni
Salvatore Masi
9 Gaseous Emissions During Concurrent Combustion of Biomass and Non-Recyclable Municipal Solid Waste
171(18)
Rene Laryea-Goldsmith
John Oakey
Nigel J. Simms
10 Environmental Effects of Sewage Sludge Carbonization and Other Treatment Alternatives
189(24)
Ning-Yi Wang
Chun-Hao Shih
Pei-Te Chiueh
Yu-Fong Huang
Part VI Gasification
11 An Experimental and Numerical Investigation of Fluidized Bed Gasification of Solid Waste
213(28)
Sharmina Begum
Mohammad G. Rasul
Delwar Akbar
David Cork
12 Gasification of Plastic Waste as Waste-to-Energy or Waste-to-Syngas Recovery Route
241(24)
Anke Brems
Raf Dewil
Jan Baeyens
Rui Zhang
Author Notes 265(4)
Index 269
Jimmy Faria is senior scientist at Abengoa Research, a R&D division of Abengoa. He is a chemical engineer and obtained a PhD from the University of Oklahoma (USA) in 2012. His research at the School of Chemical, Biological and Material Science at the University of Oklahoma (USA) is focused on the catalytic conversion of biomass-derived compounds in a novel nanoparticle stabilized emulsion system developed in this group, as well as on the synthesis, characterization, and applications of amphiphilic nanohybrids (e.g., enhanced oil recovery).

Maria Pilar Ruiz-Ramiro is senior scientist at Abengoa Research, a R&D division of Abengoa. She is a chemical engineer and obtained a PhD from the University of Zaragoza (Spain) in 2008. She later worked as research associate with Daniel E. Resasco at the School of Chemical, Biological and Material Science at the University of Oklahoma (USA). Her research is focused on the thermochemical conversion of biomass, synthesis, and characterization of carbon solids (carbon nanotubes, biomass char, and soot), and the development of nanostructured catalysts for biofuels up-grading reactions.