Energy from Mixed Wastes (Waste to Energy)

Author:   Nickolas J. Themelis ,  A. C. Bourtsalas
Publisher:   Springer-Verlag New York Inc.
Edition:   1st ed. 2020
ISBN:  

9781493975020


Publication Date:   29 October 2019
Format:   Mixed media product
Availability:   Not yet available   Availability explained
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Energy from Mixed Wastes (Waste to Energy)


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Overview

This volume in the Encyclopedia of Sustainability Science and Technology, Second edition, provides a comprehensive overview of how waste-to-energy power plants (WTEs) can be built within or near cities to transform the non-recycled residues of society into electricity, heat, and metals. With nearly one thousand WTE plants worldwide, waste incineration has become increasingly important as a means of closing the materials life- cycle loop. China leads in the beneficial use of these residues with about 30 new WTEs built in each of the last three years, and with plans for at least 300 more, one or more in each large city; also, more and more cement plants use waste materials as alternative fuels. Since currently all of these plants combust less than 20% of the available wastes, and the remainder ends up in landfills or dumps, this sector represents a huge market in the making. This comprehensive reference is suitable for readers just entering the field, but also offers new insights for advanced researchers, industry experts, and decision makers.

Full Product Details

Author:   Nickolas J. Themelis ,  A. C. Bourtsalas
Publisher:   Springer-Verlag New York Inc.
Imprint:   Springer-Verlag New York Inc.
Edition:   1st ed. 2020
ISBN:  

9781493975020


ISBN 10:   1493975021
Publication Date:   29 October 2019
Audience:   General/trade ,  General
Format:   Mixed media product
Publisher's Status:   Active
Availability:   Not yet available   Availability explained
This item is yet to be released. You can pre-order this item and we will dispatch it to you upon its release.

Table of Contents

Gasification and Liquefaction Alternatives to Incineration in Japan.- Greenhouse gas emission reduction by Waste-to-Energy.- Martin Waste-to-Energy Technology.- Thermal Treatment of Waste: Key Element for Sustainable Waste Management.- Waste-to-Energy: Fluidized Bed Technology.- Incinerator Grate Combustion Phenomena.- Waste-to-Energy Facilities as Power Plants.- Waste-to-Energy using Refuse-derived Fuel.- Life Cycle Comparison of Waste-to-Energy to Sanitary Landfill.- Waste Management for Sustainable Society.- Hitachi Zosen Inova technology.- Waste-to-Energy: Energy Resource in Solid Wastes.- Waste-to Energy: Decreasing the Entropy of Solid Wastes and Increasing Metal Recovery.- Plasma-assisted Waste-to-Energy Processes.- Waste-to-Energy Ash Management in Europe.- Waste-to-Energy Ash Management in United States.- Waste-to-Energy, Introduction.- Waste-to-Energy for District Heating.

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Author Information

Dr. Athanasios (Thanos) Bourtsalas is Adjunct Assistant Professor at the Earth and Environmental Engineering Department of Columbia University and Manager of the Waste to Energy Research and Technology Council (WtERT) at Columbia University. He obtained his M.S. in Earth & Environmental Engineering from Columbia University and PhD from Imperial College London. He is involved in many advisory projects globally for the development of pre-feasibility and feasibility studies of integrated waste managements that achieve maximum, commercially viable, extraction and recycling of usable materials, combined with energy recovery from the remaining residual waste (Waste to Energy, WTE). He is the Principal Investigator for a project funded by the Columbia Global Centres and is related to the advancement of waste management in Latin America. He is participating in the technical advisory panel of Singapore's Environmental Protection Agency for the development of environmental guidelines for the beneficial utilization of Waste-to-Energy Bottom Ash. Also, he was a co-author to the Solid Waste chapter of the Assessment Report on Climate Change and Cities (ARC3-2), developed by the Earth Institute of Columbia University and presented at the COP-21 in Paris. Dr. Themelis obtained his B. Eng. and Ph.D. degrees from McGill University (Montreal, Canada) in chemical engineering. In the first part of his career, he was Director of the Engineering Division of the Noranda Research Center in Pointe Claire where he invented and helped build the first continuous smelting and converting process, the Noranda Process. This process eliminated the use of fossil fuels in copper smelting and provided for the capture of sulphur dioxide for the manufacture of sulphuric acid. Before joining Columbia University, he was Vice President of Technology of Kennecott Corp., the major no-ferrous company at that time. He was appointed as Professor by Columbia University (New York City, U.S.A.) in 1980 and was elected to Stanley-Thompson Chair of Chemical Metallurgy in 1988. He was chairman of the Henry Krumb School of Mines and founded Columbia's Earth Engineering Center in 1996. In 1995, he introduced at Columbia University the teaching of industrial ecology and in 1997 led the transformation of the historic School of Mines to the new engineering discipline of Earth and Environmental Engineering and was first chairman of the new Department.Dr. Themelis is member of the U.S. National Academy of Engineering. He is founder of the Global Waste to Energy Research and Technology Council (WTERT), an international consortium of universities, companies and governmental organizations concerned with the recovery of energy and materials from municipal and industrial wastes. WTERT is advancing and promoting the recovery of energy and materials from commercial and municipal solid wastes, instead of landfilling them. Since 2004, Prof. Themelis has directed a bi-annual survey of the generation and disposition of municipal solid wastes in the U.S. He is the recipient of several professional awards and author of nearly 200 technical papers and books on the thermal processing of materials.

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