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E-Book

E-Book, Englisch, 355 Seiten, eBook

Reihe: The Minerals, Metals & Materials Series

Jha / Wang / Gomes Energy Technology 2015

Carbon Dioxide Management and Other Technologies
1. Auflage 2015
ISBN: 978-3-319-48220-0
Verlag: Springer International Publishing
Format: PDF
 Kopierschutz: 1 - PDF Watermark

Carbon Dioxide Management and Other Technologies

E-Book, Englisch, 355 Seiten, eBook

Reihe: The Minerals, Metals & Materials Series

ISBN: 978-3-319-48220-0
Verlag: Springer International Publishing
Format: PDF
 Kopierschutz: 1 - PDF Watermark

This book covers various technological aspects of sustainable energy ecosystems and processes that improve energy efficiency, and reduce and sequestrate carbon dioxide (CO2) and other greenhouse emissions. Papers emphasize the need for sustainable technologies in extractive metallurgy, materials processing and manufacturing industries with reduced energy consumption and CO2 emission. Industrial energy efficient technologies include innovative ore beneficiation, smelting technologies, recycling, and waste heat recovery. The book also contains contributions from all areas of non-nuclear and non-traditional energy sources, including renewable energy sources such as solar, wind, and biomass.

Papers from the following symposia are presented in the book:
Energy Technologies and Carbon Dioxide Management
Recycling and Sustainability Update
Magnetic Materials for Energy Applications V
Sustainable Energy and Layered Double Hydroxides

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Zielgruppe

Professional/practitioner

Autoren/Hrsg.

Jha, Animesh
Wang, Cong
Gomes, Andrew
Neelameggham, Neale
Pandey, Amit
Guillen, Donna
Hosemann, Peter
Li, Li
Belt, Cynthia
Kirchain, Randolph
Spangenberger, Jeffrey
Jeff,
Johnson, Frank

Weitere Infos & Material

1;Cover;1
2;Half Title;2
3;Title Page;4
4;Copyright Page;5
5;Table of Contents;6
6;About the Editors;11
7;Session Chairs;18
8;Energy Technologies and Carbon DioxideManagement Symposium 2015;21
8.1;Carbon Management;22
8.1.1;A Thermodynamic Study of Mixed Carbon Feedstock Gasification Slags;23
8.1.2;Evaluation of Heat Treatment Performance of Potential Pipe Steels in CCS-Environment;33
8.1.3;Economic Assessment of Methanol Synthesis by CO2 from Coal-Fired Power Plants;41
8.1.4;Thermal Wastes from Energy Conversions and Global Anthropogenic Warming;46
8.2;Iron & Steel;53
8.2.1;Influence of the Initial Solidification Controlling on the Energy Saving during Continuous Casting;54
8.2.2;Performance of Twin Oxygen-Coal Lances for PCI Operation in Blast Furnace Iron Making;61
8.2.3;Energy Saving and CO2 Emission Reducing Analysis of Chinese Iron and Steel Industry;69
8.2.4;Investigation on the Heat Recovery from High Temperature Slags;78
8.2.5;Optimal Distribution of Byproduct Gases in Iron and Steel Industry Based on Mixed Integer Linear Programming (MILP);86
8.3;Metal Processing / Molten Salt / Electrochemistry;94
8.3.1;Energy Efficient Separation of Magnetic Alloy from the Carbothermic Reduction of Nkana Cu-Co Concentrates;95
8.3.2;LCA Evaluation for Different Treatment Processes of Nickel Laterite Ore;104
8.3.3;Low Temperature Sulphidization of Cu-Co Slag in the Presence of Calcium Sulphide;115
8.3.4;A Kinetic Analysis of Acid Leaching of Niobium and Zirconium from Titania Waste Residue Stream: An Energy Efficient Methodology for the Reclamation of Metal Values;124
8.3.5;The Optimization Formula Design of CuxZn1-xO Infrared Radiation Material and Coating Slurry;132
8.3.6;The Role of Austenitizing Routines of Pipe Steels during CCS;140
8.3.7;Evaluation of Surface Tension for the NaNO3-KNO3-Ca(NO3)2 System and Its Sub-System;147
8.4;Solar Energy;154
8.4.1;Development of High Flux Solar Simulators for Solar Thermal Research;155
9;Recycling and Sustainability Update;166
9.1;Waste;167
9.1.1;The Removal of Phosphate and Ammonia Nitrogen from Wastewater Using Steel Slag;168
9.1.2;Sustainable Recycling Technologies for Bauxite Residue (Red Mud) Utilization;176
9.2;Recycling;183
9.2.1;Investigation on Recycling of Ag from Pb-Cu-Ag Alloy by Vacuum Distillation;184
9.2.2;Recycling of Sinter Plant Offgas Cleaning System Dust by Pre-Agglomeration;193
9.2.3;Recovery of Metals from Waste Printed Circuit Boards by Leaching with 1-Ethyl-3-Methyl-Imidazolium Hydrogen Sulfate Ionic Liquid;201
9.2.4;Application of 1-Methylimidazolium Hydrogen Sulfate Ionic Liquid to the Oxidative Leaching of Copper and Zinc in Industrial Brass Dross;208
9.3;Poster Session;215
9.3.1;Experimental Study on Reduction in Low Grade Lateritic Nickel Ore Mixed with Pickling Sludge;216
9.3.2;Recycling Wastes in the Alumina and the Cement Industry;224
9.3.3;Evaluation of the Silver Recovery from Radiographic Films in a Filter Press Electrochemical Reactor;230
9.3.4;Leaching of Gold from Printed Circuit Boards Scrap of Mobile Phones;239
10;Magnetic Materials for Energy Applications;246
10.1;Soft Magnetic Materials I;247
10.1.1;Effect of Electric Current Pulse on Grain Boundary of Grain Oriented Silicon Steel during Primary Recrystallization Annealing;248
10.2;Soft Magnetic Materials II;256
10.2.1;Magnetostriction of Co-Fe-Based Amorphous Soft Magnetic Microwires;257
10.3;Poster Session;264
10.3.1;Magnetostructural Transition in Heusler Mn-Ni-In Melt Spun Ribbons;265
10.3.2;Magnetic Properties of Nanocrystalline Microwires;272
10.3.3;On Magnetocaloric Properties of (Pr,Dy)Fe9 Alloys;279
11;Sustainable Energy and Layered Double Hydroxides;284
11.1;Sustainable Energy and Layered Double Hydroxides;285
11.1.1;Technical Innovation and Entrepreneurial Potential of “Hydrotalcite Like” Materials;286
11.1.2;Layered Double Hydroxides in Energy Research: Advantages and Challenges;294
11.1.3;Modelling the Structure and Vibrational Properties of Layered Double Hydroxides;302
11.1.4;Synthesis of Hydrotalcite-Like Compounds from Blast Furnace Slag: The Effect of Synthesis Parameters on Structure and Crystallinity;309
12;High-Temperature Systems for Energy Conversion and Storage;316
12.1;Solid Oxide Fuel Cell: Recent Developments II;317
12.1.1;Evaluating Electrophoretically Deposited Cu-Mn-O Spinel Coatings on Stainless Steel Substrates Used in Solid Oxide Fuel Cell Interconnects;318
12.2;Innovation in Energy Conversion and Storage I;326
12.2.1;Degradation of Sm2Zr2O7 Thermal Barrier Coating Caused by Calcium-Magnesium-Aluminum-Silicon Oxide (CMAS) Deposition;327
13;Structural Materials, Heat Transport Fluids, and Novel System Designs for High Power and Process Heat Generation;335
13.1;Heat Transport Fluids I;336
13.1.1;Minimum System Entropy Production for the Figure of Merit of High Temperature Heat Transfer Fluid Properties;337
14;Author Index;351
15;Subject Index;353

The Minerals, Metals & Materials Society (TMS) is a member-driven international professional society dedicated to fostering the exchange of learning and ideas across the entire range of materials science and engineering, from minerals processing and primary metals production, to basic research and the advanced applications of materials. Included among its nearly 13,000 professional and student members are metallurgical and materials engineers, scientists, researchers, educators, and administrators from more than 70 countries on six continents. For more information on TMS, visit www.tms.org.

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