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1 INTRODUCTION 001
1.1��Coal Preparation is a Subsystem of Mining Operations 002
1.2��Objectives of Coal Cleaning 002
1.3��Coal Cleaning Processes 003
1.4��Coal Utilization 004
1.5��Environmental Considerations 005
1.5.1��Clean Air Act of 1990 005
1.5.2��Carbon Dioxide Emission 006
1.6��Transportation Modes of Coal 009
1.6.1��Coal Distribution Methods 009
1.6.2��River Barge Transportation Systems 011 2 COAL 013
2.1��Formation of Coal 014
2.2��Representative Structure of Chemical Groups in Bituminous Coal 015
2.3��Parr Formula and Classification of Coal by Rank 016
2.4��Coal Resources in the United States and West Virginia 020
2.4.1��Coal Resources Distribution in the United States 020
2.4.2��Coal Resources and Coal Seams in West Virginia 021 3 COAL CHARACTERIZATION 025
3.1��Coal Sample Preparation, Analyses, and Specifications 026
3.2��Qualities of Steam and Metallurgical Coals 028
3.3��Characterization of Coal for Combustion 031
3.3.1��Proximate and Ultimate Analyses 032
3.3.2��Sulfur Forms and Analyses (ASTM D3177—89, ASTM D2492—90) 033
3.3.3��Calorific Value of Coal - Adiabatic Bomb Calorimeter (ASTM D5865—99a) 035
3.4 Hardgrove Grindability Index (HGI) 035
3.5��Mineral Matter in Coal and Ash Analysis 037
3.5.1��Mineral Matter in Coal 037
3.5.2��Fusibility of Coal Ash 039
3.6��Coal Ash Characterization 040
3.6.1��Coal Ash Slagging Potential and Deposition Indicators 041
3.6.2��Slagging Potential and Fouling Tendency of a Coal 042
3.7��Characterization of Coal for Coke 045
3.7.1��Carbonization of Coal for Coke 045
3.7.2��Fluidity or Plastic Properties of Coal by Constant-Torque Gieseler Plastometer (Audibert-Arnu Dilatometer) 045
3.7.3��Expansion and Contraction of Coal by the Sole-Heated Oven 047
3.7.4��Swelling Properties of Coal Using a Dilatometer 048
3.7.5��Free-Swelling Index (FSI) 049
3.7.6��Stability Index for Coke Using the Tumbler Test 051
3.7.7��Metallurgical Coal 051
3.8��Coal Petrography 054
3.8.1��Coal Petrographic Components 054
3.8.2��Preparation of Coal Sample for Microscopical Analysis by Reflected Light- Stopes-Heerlen System 055
3.8.3��Coal Types and Corresponding Coking Properties 056 4 COMMINUTION AND SIZE REDUCTION 059
4.1��Objective of Size Reduction 060
4.2��Energy Requirements for Size Reduction 060
4.3��Principle of Size Reduction and Liberation 062
4.3.1��Reduction Ratio 062
4.3.2��Specific Energy 063
4.4��Unit Operations for Comminution 065
4.5��Size Distribution Analysis 071
4.5.1��Sieve Analysis 072
4.5.2��Rosin-Rammler Equation 073 5 SCREENING, CLASSIFICATION, AND DESLIMING 077
5.1 Screen Efficiency 078
5.1.1��Efficiency of Undersize Removal 078
5.1.2��Efficiency of Undersize Recovery 080
5.2 ��Mass (Material) Balances 082
5.3 ��Crushing and Grinding Circuits 086
5.3.1��Open Circuit 087
5.3.2��Closed Circuit 088
5.3.3��Relationship between Em and Er 091
5.4��Types of Crushers Used in Mineral Processing 092
5.5��Unit Operations for Screening, Classification, and Desliming 093
5.6 Classification by Hydrocyclone 095 6 WASHABILITY ANALYSIS 097
6.1��Float-and-Sink Test 098
6.1.1��Heavy Medium Suspensions for Float-and-Sink Tests 098
6.1.2��Float-and-Sink Test Procedures 098
6.2��Washability Data Analysis 099
6.3��Composite Washability Data for Coal 106 7 GRAVITY BASED SEPARATION PROCESSES 109
7.1��Fundamental of Momentum Transport and Settling Velocity of Particles in Fluid 110
7.1.1��Criteria for Viscous Flow (Stokes' Criterion for Small Particles) 110
7.1.2��Criteria for Turbulent Flow (Newton′s Criteria for Large Particles) 112
7.1.3��Allen Equation for Intermediate Flow Region 113
7.2 Equal Settling Terminal Velocity 113
7.2.1��Free Settling 113
7.2.2��Hindered-Settling 114
7.3��Concentration Criteria 115
7.4��Separation by Difference in Settling Rate 116
7.5��Sphericity of a Particle 117
7.6��Unit Operations for Coal Concentration 119
7.6.1��Jig 120
7.6.2��Dense Medium Vessel 125
7.6.3��Dense Medium Cyclone 125
7.6.4��Concentration Table 125
7.6.5��Water-Only Cyclone 131
7.6.6��Spiral Concentrators 133
7.6.7��Hindered-Settling Bed Separators 135
7.6.8��Pneumatic Coal Preparation Process 136 8 PROCESS EVALUATION AND PREDICTING COAL CLEANING RESULTS 141
8.1��Determination of Clean Coal Yield by Product Ash Analysis 142
8.2��Determination of Efficiency and Sharpness of Separation for a Coal Cleaning Unit 143
8.3 Prediction of Coal Cleaning Results 147 9 FROTH FLOTATION OF FINE COAL 149
9.1��Surface and Interfaces of Solid-Liquid-Gas 150
9.1.1��Young′s Equation 151
9.1.2��Dupree′s Equation 152
9.2��Effect of Coal Rank and Mineral Inclusion on Coal Floatability 152
9.3��Parameters Affecting the Rate of Flotation 153
9.3.1��Rate of Flotation in Stirred Tank Cell flotation 154
9.3.2��Pyrite Reverse Flotation Process for Desulfurization 155
9.4 ��Weathered Coal (Oxidized Coal) 156
9.4.1��Sources of Weathered Coal 156
9.4.2��Characteristics of Oxidized Coal 156
9.4.3��Adverse Properties of Oxidized Coal on Coal Preparation 157
9.4.4��Coal Preparation Methods of Controlling the Effects of Oxidized Coal 157
9.5 Flotation Reagents 158
9.5.1��Effects of Non-Polar Hydrocarbon Oils 158
9.5.2��Common Flotation Reagents Used in Fine Coal Flotation 159
9.6��Flotation Conditioner for Weathered Coal 161
9.7��Calculation of Combustible Material Recovery 162
9.8��Unit Operations for Ultra-fine Coal 163
9.8.1��Stirred Tank Flotation Cell 163
9.8.2��Flotation Column 165 10 DEWATERING, THICKENING, AND DRYING 167
10.1��Introduction 168
10.2��Principle of Filtration (Cake formation in filtration) 169
10.2.1��Filter Cake Resistance, Rc 170
10.2.2��Filtration Equations 171
10.2.3��Methods of Filtration Operations 172
10.3��Filtration Experiment for Determination of Filtration Area 172
10.3.1��Constant Pressure Filtration Experiment 174
10.3.2��Estimation of Filtering Area Required for a Plate and Frame Filter Operation 175
10.4��Continuous Filtration Operations 179
10.5��Centrifugal Filtration 183
10.6��Vacuum Filters 184
10.7��Fluidized-Bed Coal Thermal Dryer 186
10.8��Flocculation and Coagulation 187
10.9��Sedimentation, Thickening, and Clarifying 190
10.9.1��Sedimentation Rate and Thickener Capacity 190
10.9.2��Kynch Method 193
10.9.3��Operating Line 195
10.9.4��High-capacity thickening 197 11 ON-LINE COAL QUALITY MONITORING AND MATERIAL HANDLINGS 199
11.1��X1-LiNX Coal Analyzer 200
11.2 ��Combined Ash, Moisture and Elementary Belt Analyzer(AM-EBA) 201
11.3��Moisture Meter 202
11.4��Elemental Analyzer 203
11.5��Belt Scale 204
11.5.1��Singe-Station Conveyor Belt Scale 204
11.5.2��Dual-Station Conveyor Belt Scale 204
11.5.3��Multi-Station Conveyor Belt Scale 205
11.6��High Speed Sorting Gate 206 12 PLANT FLOWSHEET DESIGN 207
12.1��Coal Cleaning Circuits Configuration and Plant Flowsheet Design 208
12.2��Solids and Water Balances 215 13 COARSE REFUSE AND TAILINGS MANAGEMENT AND ENVIRONMENT 219
13.1 Tailing Dams 220
13.1.1��Methods of Tailings Dam Construction 220
13.1.2��Construction of Tailing Dam Wall Utilizing Cyclone Underflows 222
13.2��Contaminants from Reagents Used in Processed Plants 223
13.3��Water Balance in Tailings Impoundment 223
13.3.1��Water Gain and Loss in Impoundment 223
13.3.2��Water Reclamation System for Closed-Water Circuit 224
13.3.3��Design of a Settling Basin – An Example 225 14 HOMEWORK, PROJECTS, LABORATORY EXPERIMENTS, AND EXAMS 229
14.1 Homework 230
Homework #1 Coal Resources and Characterization 230
Homework #2 Environmental Impact of Coal Utilization, and Crushing and Comminution 231
Homework #3 Material Balances in Crushing Plant and Grinding Circuit 232
Homework #4 Washability Data and Prediction of Raw Coal Cleaning Results 232
Homework #5 Design Project 233
Homework #6 Flotation of Fine Coal and Oxidized Coal 234
Homework #7 Dewatering and Thickening and Online Quality Monitoring 235
14.2 Laboratory Experiments 236
Laboratory #1 - Preparation of ″representative″ Coal Sample and Chemical Analysis 236
Laboratory #2 - Size Distribution and Analysis 239
Laboratory #3 - Washability Analysis of Coal 241
Laboratory #4 - Froth Flotation 244
Laboratory #5 - Thickener Design 246
14.3 Exams 248
Exam 1 (Close books and notes) 248
Exam 2 (Close books and notes) 249
Exam 3 (Close books and notes) 251
Exam 4 (Open books) 255
Final Exam (Open book) 258 References 263 Subject Index 267