Overview
This book presents the state-of-the-art of carbon dioxide metallurgical reduction and decreased use of carbon. Readers will find papers concerning the efficient reduction of carbon dioxide and properly tailoring extractive metallurgical techniques to improve fuel self-sufficiency in a cost-effective manner. In connection, the utilization of all available energy sources, including solar and stored energy in the form of wastes, is presented. The book is conveniently divided into the areas of mechanisms, ferrous industry and electrolytic methods.
Full Product Details
Author: Neale R. Neelameggham , Ramana G. Reddy , Ramana G. Reddy
Publisher: The Minerals, Metals & Materials Society
Imprint: The Minerals, Metals & Materials Society
Dimensions:
Width: 15.50cm
, Height: 1.50cm
, Length: 22.90cm
Weight: 0.342kg
ISBN: 9780873397131
ISBN 10: 0873397134
Pages: 218
Publication Date: 01 March 2008
Audience:
Professional and scholarly
,
College/higher education
,
Professional & Vocational
,
Postgraduate, Research & Scholarly
Format: Paperback
Publisher's Status: Unknown
Availability: In Print 
Limited stock is available. It will be ordered for you and shipped pending supplier's limited stock.
Table of Contents
Preface. Editors. Carbon Dioxide Reduction Metallurgy Mechanisms. From the Manhattan Project to Global Warming: The Science and Technology of CO2 Mitigation (Meyer Steinberg). Chemical Utilization of Sequestered Carbon Dioxide as a Booster of Hydrogen Economy (Michael Moats, Jan Miller, and Wlodzimierz Zmierczak). Novel, Synergistic Oxygen Supply Technology for Metals Processing (Phillip Armstrong, John Gordon, and Charles Lewinsohn). CO2 Reduction by Dry Methane Reforming over Hexaluminates: A Promising Technology for Decreasing Global Warming in a Cost Effective Manner (Maria Salazar-Villalpando, and Todd H. Gardner). A Proposal for a Reduction Method of Global Atmospheric CO2: Isolation of Surplus CO2 from the Biosphere and Fix it to Form an Insoluble Mineral onto a Sea Bottom (Katsuyoshi Tatenuma). CO2 Capture and Sequestration ? Implications for the Metals Industry (Mark Berkley, Jason Berzansky, David Clarry, and Jim Sarvinis). Ferrous Industry. UCLOS: The European Steel Industry's Effort to Find Breakthrough Technologies to Cut Its CO2 Emmisssions Significantly (Jean-Pierre Birat, and J. Borlée). Recent Developments in Technology Management for Reduction of CO2 Emissions in Metal Industry in India (Malti Goel). Impact on Greenhouse Gas Emissions of a Switch from Carbon to Hydrogen as the Principal Reducing Agent in Producing Metals (James Evans, and Brian R. Wildey). Sequestration of Carbon Dioxide by Steelmaking Slag: Process Phenomena and Reactor Study (Von Richards, Charles Rawlins, Simon N. Lekakh, and Kent D. Peaslee). Canadian Green Steel: Adopting Best Practices (Jon Feldman, Edmund Smith, Steve Gale, and David Clarry). Reduction of Ti-V-Magnetite with Microwave (Chenguang Bai, Liangying Wen, and Feng Xia). Electrolytic Methods. Electrochemical Reduction of Carbon Dioxide (Melvin Miles). Soda Fuel Cycle Metallurgy - Choices For CO2 Reduction (Neale Neelameggham). Electrocatalytic Reduction of CO2 to C2H4 at a Gas/Solution/Metal Interface (Kotaro Ogura). CO2 Free Electrochemical Process for Production of Light Metals Using Ionic Liquids as Electrolytes (Mingming Zhang, and Ramana Reddy). Carbon Dioxide Recycling by High Temperature Co-Electrolysis and Hydrocarbon Synthesis (Joseph Hartvigsen, S. Elangovan, Lyman Frost, Anthony Nickens, Carl Stoots, James O'Brien, and J. Stephen Herring). CO2 Reduction by Nanoscale Galvanic Couples (Kanchan Mondal). Reduction of Carbon Dioxide to Formate in an Electrochemical Membrane Reactor in KHCO3 Buffer Solutions (Kandasamy Subramanian, Govindarajan Gomathi, and Krishnasamy Asokan). Author Index. Subject Index.
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