在线一本码道高清

Position: Home > Books and Manuals > Data Download > Coal Books > Modern Mineral Processing Technology Manual (Volume 8): Environmental Protection and Resource Recycling

Handbook of Modern Mineral Processing Technology (Volume 8): Environmental Protection and Resource Recycling

Bookmark this page
  • Data size: 114.03 MB
  • Data language: Chinese version
  • Document format: PDF document
  • Data category: coal mine books
This site recommends:
Related Information:
Related instructions:
  • basic introduction
Handbook of Modern Mineral Processing Technology (Volume 8): Environmental Protection and Resource RecyclingPublished Time: 2014 Edition Introduction "Handbook of Modern Mineral Processing Technology (Volume 8) Environmental Protection and Resource Recycling" is compiled around environmental protection and resource recycling in the process of mineral processing , Including environmental protection and sustainable development of mines, dehydration of beneficiation products, treatment and recycling of beneficiation wastewater, recycling of tailings, management of storage and tailings dams, clean production of mining plants and construction of ecological mines, Resource recycling and secondary resource sorting and recovery. The "Handbook of Modern Mineral Processing Technology (Volume 8) Environmental Protection and Resource Recycling" can be used as a reference for scientific research and management personnel engaged in mineral processing and related professions, as well as relevant professional teachers and students of colleges and universities.
table of Contents
1 Mine (area) environmental protection and sustainable development
1.1 Ecological and Environmental Issues in Mining
1.1.1 Overview
1.1.2 Water resource destruction and water pollution
1.1.3 Production and disposal of solid waste
1.1.4 Dam break and leakage of tailings pond
1.1.5 Landform landscape change and vegetation destruction
1.1.6 Land occupation and soil pollution
1.1.7 Air pollution
1.1.8 Destruction of biodiversity
1.2 History of International Mining Environmental Protection and Sustainable Development
1.2.1 History of International Mining Environmental Protection and Sustainable Development
1.2.2 Major environmental disasters in the mining industry
1.2.3 Important International Conventions to Promote the Sustainable Development of Mining
1.3 Connotation, goals and measures of sustainable mining development
1.3.1 Connotation of sustainable mining development
1.3.2 Basic principles and framework of sustainable mining development
1.3.3 Goals and Action Programs for Sustainable Development of the Mining Industry
1.3.4 Specific actions for sustainable mining development
1.4 China's mining environmental protection and sustainable development
1.4.1 Development History of China's Mining Environmental Protection
1.4.2 China's Sustainable Development Goals and Program Measures
1.4.3 Problems and Countermeasures of China's Sustainable Development of Mining Industry
2 Dewatering and water recycling of mineral processing products
2.1 Purpose and method of dehydration of mineral processing products
2.1.1 Purpose of dehydration of mineral processing products
2.1.2 Characteristics and separation method of pulp system
2.1.3 Selection of dewatering process for mineral processing products
2.2 Concentrated dehydration technology and equipment
2.2.1 Overview of gravity settlement and its equipment
2.2.2 Technical principles of gravity sedimentation and concentration dehydration
2.2.3 Ordinary thickener
2.2.4 High-efficiency thickener
2.2.5 Inclined plate (tube) thickener
2.2.6 Deep cone paste thickener
2.3 Filtration and dewatering technology and equipment
2.3.1 Process and Principle of Pulp Filtration
2.3.2 Classification of filtering equipment
2.3.3 Cartridge Vacuum Filter
2.3.4 Magnetic filter
2.3.5 Ceramic disc vacuum filter
2.3.6 Horizontal belt vacuum filter
2.3.7 Filter press
2.4 Practice of dewatering and water recycling of mineral processing products
2.4.1 Overview of Development of Mineral Processing Product Dehydration Technology
2.4.2 Dehydration practice of fine-grained concentrate ceramics
2.4.3 High-pressure / paste concentration practice of tailings
2.4.4 Thousands pile discharge practice of pressure filtration and dehydration of whole mud cyanide tailings in gold mine
3 Mine (concentration plant) wastewater treatment and recycling
3.1 Nature and harm of mine (concentration plant) wastewater
3.1.1 Source and composition of wastewater
3.1.2 The main pollutants of mine wastewater and their environmental hazards
3.2 Mine (concentration plant) wastewater treatment principles and methods
3.2.1 Standard requirements for wastewater discharge and recycling in mines (concentration plants)
3.2.2 Basic Principles of Wastewater Pollution Control in Mines (Beneficiation Plants)
3.2.3 Mine (concentration plant) wastewater treatment method summary
3.3 Production, control and treatment of mine acid wastewater
3.3.1 Characteristics of mine acid wastewater
3.3.2 Generation, prevention and control of mine acid wastewater
3.3.3 Mine acid (metal-containing) wastewater treatment technology
3.3.4 Treatment of acidic (metal-containing) wastewater in mines
3.4 Treatment and recycling of cyanide-containing wastewater
3.4.1 Sources and characteristics of cyanide-containing wastewater
3.4.2 Main process methods for treatment and utilization of cyanide-containing wastewater
3.4.3 Cyanide-containing wastewater treatment and recycling practices
3.5 Comprehensive treatment and recycling of wastewater from flotation plant
3.5.1 Brief
3.5.2 Comprehensive Utilization of Beneficiation Wastewater from Fankou Lead-Zinc Mine
3.5.3 Practice and Treatment of Beneficiation Wastewater from Qixiashan Lead-Zinc Concentrator
3.5.4 Recycling Practice of Beneficiation Wastewater from the Jean Copper and Nickel Concentrator
3.5.5 Practice of High Suspension Mineral Processing Wastewater Treatment Project in a Gold Mine
4 Comprehensive recycling of beneficiation tailings
4.1 Composition of tailings and its utilization value
4.1.1 The main components of tailings
4.1.2 Resource utilization value of tailings
4.1.3 Comprehensive Utilization of Tailings
4.2 Process Technology and Featured Equipment for Tailings Reselection
4.2.1 Technical characteristics of tailings re-dressing
4.2.2 Recycling technology of iron-containing tailings resources
4.2.3 Non-ferrous metal tailings resource recovery technology
4.2.4 Featured equipment for tailings reselection operation
4.3 Production practice of re-recycling valuable components in tailings
4.3.1 Production Examples of Iron Ore Tailings
4.3.2 Production Examples of Heavy Metal Tailings
4.3.3 Re-use of rare and precious metal tailings
4.4 Overall Utilization Technology and Practice of Beneficiation Tailings
4.4.1 Production of cement clinker from tailings
4.4.2 Production of new wall materials
4.4.3 tailings filling
5 Tailings storage and tailings warehouse management
5.1 Tailings storage and treatment and facilities
5.1.1 Tailings discharge and storage method
5.1.2 Function, form and grade of tailings pond
5.1.3 Tailings facilities and tailings storage
5.2 Engineering mechanical properties of tailings
5.2.1 Overview
5.2.2 Classification of Tailings Engineering Technology
5.2.3 Engineering mechanical characteristics of tailings
5.2.4 Minimum particle size limit for effective dam building particles
5.3 Full life cycle management of tailings ponds
5.3.1 Life cycle of tailings pond and its management principles
5.3.2 Main risks of tailings ponds
5.3.3 Regulations and standards related to tailings pond management
5.3.4 Main Contents of Full Life Cycle Management of Tailings Reservoir
5.4 Tailing pond design and construction
5.4.1 Selection and Evaluation of Tailings Reservoir Sites
5.4.2 Design calculation of tailings pond
5.4.3 Analysis of stability of tailings dam body
5.4.4 Tailings Dam Construction and Construction
5.4.5 Construction of tailings dams
5.5 Safety Maintenance Management of Tailings Depot
5.5.1 Tasks and requirements for safety management of tailings storage
5.5.2 Safety accidents and hidden dangers of tailings ponds
5.5.3 Safety Evaluation of Tailings Reservoir
5.5.4 Safety monitoring and hidden danger management of tailings dams
5.5.5 Emergency Management of Tailings Depot
5.6 Environmental Pollution Control of Tailings Reservoir
5.6.1 Release of potential pollutants and their environmental hazards
5.6.2 Environmental mineralogical characteristics and characterization of tailings
5.6.3 Production and migration of heavy metals and other pollutants
5.6.4 Control of water pollution in tailings ponds
5.7 Closed storage and ecological restoration of tailings storage
5.7.1 Closed storage of tailings storage and engineering measures
5.7.2 Tasks and procedures for ecological restoration and reconstruction of tailings ponds
5.7.3 Technologies for Ecological Restoration and Reconstruction of Tailings Reservoir
5.7.4 Tailoring pond ecological restoration and reconstruction practice
6 Cleaner Production and Ecological Mine (District) Construction in Concentrators
6.1 Introduction to Cleaner Production
6.1.1 Meaning and Characteristics of Cleaner Production
6.1.2 Contents and measures of cleaner production
6.1.3 Implementation procedures for cleaner production
6.1.4 Cleaner Production Audit
6.1.5 Regulations, policies and systems of cleaner production
6.2 Cleaner Production and Energy Saving and Emission Reduction in Concentrators
6.2.1 Contents and Measures of Cleaner Production in Concentrator
6.2.2 Requirements for Cleaner Production in China's Concentrators
6.2.3 Technical Measures for Clean Production and Energy Saving and Emission Reduction in Concentrators
6.2.4 Practices of Cleaner Production and Energy Saving and Emission Reduction in Mines / Concentrators
6.3 Exploration and practice of ecological mine (area) construction
6.3.1 Eco-industrial park ideas and exploration
6.3.2 Basic principles and conditions for the construction of eco-industrial parks
6.3.3 Ecological Mine (Area) and Its Exploration
7 Resource recycling and secondary resource sorting and recovery
7.1 Introduction to metal resource cycle
7.1.1 Concept and Connotation of Resource Cycle
7.1.2 Resource cycle characteristics and cycle paths of typical metals
7.1.3 Generation and recycling of secondary metal resources
7.1.4 Status of Recycling of Secondary Metal Resources
7.2 Separation and Treatment Technology and Practice of Steel Smelting Slag / Dust
7.2.1 Source and properties of smelting slag / dust
7.2.2 Resource Value and Utilization of Smelting Slag / Dust
7.2.3 Blast Furnace Gas Dust / Slurry Separation and Recovery Technology and Practice
7.2.4 Steel Slag Sorting and Recycling Technology and Practice
7.3 Sorting treatment technology and practice of non-ferrous metal smelting slag
7.3.1 Classification and Properties of Slag
7.3.2 Resource Value of Nonferrous Smelting Slag and Its Realization
7.3.3 Sorting and Recovery Technology of Smelting Slag
7.3.4 Production Practice of Nonferrous Metallurgy Slag Concentrator
7.4 Sorting Technology and Practice of Pyrite Slag
7.4.1 Source and composition characteristics of pyrite slag
7.4.2 Pyrite slag resource utilization mode
7.4.3 Pyrite Slag Treatment and Utilization Technology
7.4.4 Production Practice of Comprehensive Recovery of Pyrite Slag
7.5 Sorting Technology and Practice of Fly Ash
7.5.1 Composition and properties of fly ash
7.5.2 Fly Ash Resource Value and Implementation Method
7.5.3 Separation Technology and Practice of Fly Ash
7.5.4 Technology and Industrialization of High Alumina Fly Ash for Alumina Production
7.6 Sorting and Recycling Technology and Practice of Electronic Waste
7.6.1 Types and Characteristics of Electronic Waste
7.6.2 Resource Value of Electronic Waste and Its Recycling
7.6.3 Physical sorting process and equipment for e-waste
7.6.4 Process of physical separation of e-waste
7.6.5 References for Physical Sorting of Waste Circuit Boards

现代选矿技术手册(第8册):环境保护与资源循环 Download address Modern Mineral Processing Technology Manual (Volume 8): Environmental Protection and Resource Recycling

Download Ranking

Latest information