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BL
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| Record Number
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891006
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| Title & Author
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Arsenic pollution control in nonferrous metallurgy /\ Li-Yuan Chai, editor.
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| Publication Statement
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Singapore :: Springer,, [2019]
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| Page. NO
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1 online resource (224 pages)
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| ISBN
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9789811367212
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: 9789811367229
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: 9789811367236
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: 9811367213
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: 9811367221
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: 981136723X
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9789811367205
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9811367205
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| Notes
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4.3 Arsenic Vitrification Technologies
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| Bibliographies/Indexes
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Includes bibliographical references.
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| Contents
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Intro; Preface; Contents; Contributors; 1 Arsenic Distribution and Pollution Characteristics; 1.1 Mineralogy and Distribution of Arsenic; 1.1.1 Arsenic-Containing Minerals; 1.1.2 Distribution of Arsenic Minerals; 1.1.3 Transformation Behavior of Arsenic Mineralogical Phase; 1.2 Pollution Sources of Arsenic; 1.2.1 Natural Pollution Sources; 1.2.2 Anthropogenic Pollution Sources; 1.3 Arsenic Pollution Characteristics and Status in Environment; 1.3.1 Arsenic Pollution in Groundwater; 1.3.2 Arsenic Pollution in Atmosphere; 1.3.3 Arsenic Pollution in Solid Phase; References
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2 Pollution Source Distribution of Arsenic in the Typical Smelter2.1 Behavior and Distribution of Arsenic in a Typical Lead Smelter; 2.1.1 Arsenic Behavior in SKS Lead Smelting Process; 2.1.2 Characterization of Dust and Slag Samples; 2.2 Environment Risk Assessment; References; 3 Arsenic Behaviors and Pollution Control Technologies in Aqueous Solution; 3.1 Introduction; 3.2 Redox Behavior and Chemical Species of Arsenic in Acidic Aqueous System; 3.2.1 Redox Behavior of Arsenic; 3.2.2 Chemical Species of Arsenic; 3.2.3 Eh-pH Diagram in Fe-As-H2O System; 3.2.4 Fe(III)-As(V) Complexes
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3.2.5 Species Transformation of Fe(III)-As(V) Complexes3.3 Photochemical Oxidation of As(III) and the Molecular Reaction Mechanism; 3.3.1 The SO4·−-Based As(III) Oxidation; 3.3.2 Kinetics of Oxidation Reaction; 3.3.3 Molecular Reaction Mechanism; 3.4 Formation Mechanism and Characteristics of Tooeleite from High-Arsenic Acid Wastewater; 3.4.1 Direct Removal of As(III) by the Formation of Tooeleite; 3.4.2 Characterization of Tooeleite; 3.4.3 Safety Evaluation; 3.4.4 Tooeleite Formation Mechanism; 3.5 Cascade Sulfide Precipitation and Separation of Copper and Arsenic from Acidic Wastewater
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3.5.1 Thermodynamics for Separation of Copper and Arsenic3.5.2 Cascade Sulfide Precipitation and Separation Technique; 3.5.3 Removal Efficiencies of Copper and Arsenic; 3.5.4 Replacement of Arsenic by Copper; 3.6 Arsenic Removal by Fe3O4-Based Nanomaterials via Adsorption; 3.6.1 Controllable Synthesis of Hierarchical Porous Fe3O4 Particles for Arsenic Removal; 3.6.2 Arsenic Adsorption by Cu Doped Fe3O4 Magnetic Adsorbent; 3.6.3 Arsenic Adsorption by Fe3O4@Cu(OH)2 Composites; 3.6.4 Arsenic Removal by Hollow Cu-Loaded Poly(m-Phenylenediamine) Particles; References
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4 Arsenic Pollution Control Technologies for Arsenic-Bearing Solid Wastes4.1 Arsenic Stabilization Technologies; 4.1.1 Lime-Based Stabilization of High Alkaline Arsenic-Bearing Sludges; 4.1.2 Stabilization of Arsenic Sludge with Mechanochemically Modified Zero Valent Iron; 4.2 Arsenic Solidification Technologies; 4.2.1 Solidification/Stabilization of Arsenic and Heavy Metals with Minimal Cement Clinker; 4.2.2 Co-treatment of Gypsum Sludge and Pb/Zn Smelting Slag; 4.2.3 Utilization of Red Mud and Arsenic Sludge for the Synthesis of a Red Mud-Based Cementitious Material
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| Abstract
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The control of arsenic pollution has attracted worldwide attention, as it is one of the top 20 hazardous substances, and greatly threatens the human health, ecological balance, and industrial development. Arsenic pollution results from natural enrichment and anthropological activities, especially mining and smelting operations. This book introduces arsenic pollution control technologies for aqueous solution and solid wastes produced by the utilization of arsenic-containing materials. It systematically discusses the principles and technologies of arsenic pollution control based on the author's 16 years of research on arsenic, to help readers gain an understanding of various aspects of arsenic pollution control, including the pollution source distribution of arsenic in typical smelters, arsenic behaviors and pollution control technologies in aqueous solution and solid waste, and clean unitization of arsenic-containing materials.
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| Subject
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Arsenic wastes.
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| Subject
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Metallurgy.
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Arsenic wastes.
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| Subject
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Metallurgy.
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| Dewey Classification
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669/.75
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| LC Classification
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TD172-193.5TA459-492
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TD898.8.A76A77 2019
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| Added Entry
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Chai, Li-Yuan
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