目录 Chapter 1 Characterization and Disposal of Baute Residue 11.1 Introduction 11.2 Generation of Baute Residue 31.2.1 Baute Production and Global Reserves 31.2.2 Production Process of Alumina 41.2.3 Annual Production and Inventory of Baute Residue 61.3 Properties of Baute Residue 61.3.1 Physical Properties 61.3.2 Chemical Properties 71.3.3 Biological Properties 131.4 Management of Baute Residue 141.4.1 Conventional Disposal of Baute Residue 141.4.2 Utilization of Baute Residue 141.5 Alkalinity Transformation of Baute Residue 151.5.1 Alkaline Solid Transformation 151.5.2 Waste Acid Synergy 201.5.3 Acid Gas Sequestration 211.5.4 Chloride Salt Neutralization 241.6 Soil Formation and Revegetation of Baute Residue 261.6.1 Amelioration of Baute Residue 271.6.2 Screening of Tolerant Plant Species and Microorganisms 281.6.3 Soil Formation in Baute Residue 30References 31Chapter 2 Novel Predictors of Soil Genesis in Baute Residue under Natural Weathering Processes 382.1 Natural Evolution of Alkaline Characteristics in Baute Residue 382.1.1 Transformation of Basic Alkalinity 402.1.2 Transformation of Electrical Conductivity 422.1.3 Transformation of Exchangeable Cations 432.1.4 Transformation of Acid Neutralizing Capacity 452.1.5 Environmental Management for Long-Term Disposal 472.2 Natural Plant Colonization Improves Physical Conditions of Baute Residue 472.2.1 Particle Size Distribution 482.2.2 Bulk Density and Total Porosity 502.2.3 Mean Weight Diameter (MWD) and Water-Stable Aggregates (WSA) 512.2.4 Structural Stability Index (SI) 522.3 Development of Alkaline Electrochemical Characteristics 522.3.1 Mineralogy 532.3.2 Zeta Potential Curves and Isoelectric Point 562.3.3 Surface Protona... 作者介绍
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