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Innovations in sustainable mining : balancing environment, ecology and economy / / edited by Kirtikumar Randive, Shubhangi Pingle, and Anupam Agnihotri

Cham, Switzerland : , : Springer, , [2021]

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Medical geology in mining : health hazards due to metal toxicity / / Kirtikumar Randive, Shubhangi Pingle and Anupam Agnihotri, editors

Cham, Switzerland : , : Springer, , [2022]

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Materiale a stampa (2)

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Springer (2)

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2021 (1)
2022 (1)

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Mine safety (1)
Miners (1)
Mines and mineral resources (1)
Mines and mineral resources - Environmental aspects (1)
Sustainable development (1)

Pubbl/distr/stampa	Cham, Switzerland : , : Springer, , [2021]
Descrizione fisica	1 online resource (261 pages)
Disciplina	622
Collana	Earth and Environmental Sciences Library
Soggetto topico	Mines and mineral resources - Environmental aspects Sustainable development
ISBN	3-030-73796-9
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Intro -- Foreword -- Preface -- Acknowledgements -- Contents -- Contributors -- A Sustainable Approach to Transforming Mining Waste into Value-Added Products -- 1 Introduction -- 2 Mineral Wastes: Nomenclature and Classification -- 3 Global Scenario of Solid Wastes in Mining -- 4 Disposal Methods for Solid Wastes from Mines -- 4.1 Pond Storage -- 4.2 Dry Stacking -- 4.3 Disposal into Underground Workings -- 4.4 Disposal into the Oceans/Submarine Tailings Disposal (Std) -- 4.5 Co-disposal of Tailings and Waste Rock -- 5 Optimal Waste Management Strategy -- 5.1 Technological Innovations -- 5.2 Phytostabilization -- 5.3 Towards the Circular Economy -- 6 Role of Legislations in Management -- 7 Value Added Products from Mining Wastes -- 8 Merits of Mining Waste Transformation -- 9 Summary -- References -- Utilization of Aluminium Industry Solid Waste (Red Mud/Bauxite Residue) in Pollution Control -- 1 Introduction -- 2 Utilization of Red Mud in Pollution Control -- 2.1 Oxides of Sulphur, Nitrogen Removal -- 2.2 Toxic Heavy Metal Ions Removal -- 2.3 Inorganic Anions Removal -- 2.4 Dyes Removal -- 2.5 Phenols and Its Derivatives Removal -- 2.6 Removal of Other Impurities -- 3 Identified Issues for the Utilization of Red Mud in Pollution Control -- 4 Discussion -- 5 Conclusion -- References -- Aluminum Dross: Value Added Products to Achieve Zero Waste -- 1 Introduction -- 2 History and Future of Dross -- 3 Primary Processes -- 4 Future Scope -- 5 Technical Assessment of Dross -- 5.1 Sample Collection & -- Preparation -- 5.2 Screening/Classification -- 5.3 Wet Chemical -- 5.4 Determination of Major Metal/Metal Oxide -- 6 Methodology -- 6.1 Recovery of Metal by Metallurgical Process -- 6.2 Designation of Dross Based on Recoverable Metal -- 6.3 Treatment of Dross for Recovery of Value-Added Product -- 7 Application of Alum -- 8 Conclusions -- References. Value Addition of Alumino-Silicates: Consolidation of Mining Rejects and Industrial Slag by Geo-Polymerization -- 1 Introduction -- 2 Experimental -- 2.1 Materials and Methods -- 2.2 Sample Preparation and Characterization -- 2.3 Optimization of Solid-Liquid Ratio -- 2.4 Alkali Activator -- 2.5 Geo-Polymer Synthesis -- 2.6 Preliminary Test for Geo-Polymer Formation -- 2.7 Assessment of Chemical Properties -- 2.8 Tests on the Developed Product -- 3 Results and Discussion -- 3.1 Value Addition -- 3.2 Preparation of Light Weight Foamed Geo-Polymer -- 3.3 Preparation of Layered Geo-Polymer -- 3.4 Fiber Reinforced Geo-Polymer -- 4 Conclusions -- References -- Metallurgical and Mining Waste Utilization in Preparation of Geo-Polymeric Bricks as the Future Construction Material -- 1 Introduction -- 2 General Details of Materials, Processes and Parameters -- 2.1 Fly Ash -- 2.2 Sodium Hydroxide -- 2.3 Sodium Silicates -- 2.4 Alkali Activation -- 2.5 Variation in Parameters -- 2.6 Curing Duration -- 2.7 Curing Temperature -- 3 Methodology -- 3.1 Preparation of Amorphous Sodium Silicate from the Leaves of Bamboosa Dendrocalamus -- 3.2 Formulation of Geopolymer Brick by Utilising Industrial Waste -- 3.3 To Investigate the Change in Strength of Geopolymer Brick with Change in Temperature -- 3.4 Testing Techniques -- 4 Results and Discussion -- 4.1 X-Ray Diffraction -- 4.2 Scanning Electron Microscopy -- 4.3 Fourier Transformed Infrared Spectroscopy -- 4.4 Compression Strength -- 5 Conclusion -- References -- Beneficiation of Low-Grade Bauxite: A Case Study of Lateritic Bauxite of India -- 1 Introduction -- 2 Waste Generated at Bauxite Mine -- 3 Transforming Unutilized Materials (Mine Waste) into Resource -- 4 Scenario of Bauxite Deposits -- 5 Beneficiation -- 5.1 Sampling and Characterization. 5.2 Beneficiation/Upgradation Studies on Laterite and Low-Grade Bauxite -- 5.3 Screening/Sieving -- 5.4 De-Ironing Studies by Wet High Intensity Magnetic Separator (WHIMS) -- 5.5 Beneficiation of Blended Bauxite by WHIMS -- 5.6 Separation Studies by Hydrocyclone Test Rig -- 5.7 Leaching Studies -- 6 Results and Discussion -- 7 Summary -- References -- Bauxite Beneficiation: An Approach to Value Addition in Mining -- 1 Introduction -- 2 Bauxite Beneficiation for the Metallurgical Industry -- 3 Wet Beneficiation of Bauxite -- 4 How Attrition Scrubbing and Desliming Assists in Wet Beneficiation Process? -- 5 Bauxite Recovery -- 6 Why Alumina Refineries Prefer to Import Washed Bauxite -- 7 Bauxite Beneficiation for Non-metallurgical Industry -- 7.1 Reduction Roasting Followed by Magnetic Separation -- 7.2 Chemical Methods -- 8 Conclusion -- References -- Arsenic, from a Woeful Environmental Hazard to a Wishful Exploration Tool: A Case Study of Arsenic Contaminated Groundwater of Chakariya Area, Singrauli District, Madhya Pradesh, India -- 1 Introduction -- 2 Geochemistry of Arsenic -- 3 Geology and Geomorphology of the Area -- 4 Methodology -- 4.1 Sampling -- 4.2 Analytical Procedure -- 5 Results -- 5.1 Field Characteristics and Petrographic Description of Arsenic Bearing Sulfide Phases -- 5.2 Physicochemical Properties of Water Samples -- 5.3 Concentration of Arsenic in the Water Samples -- 6 Discussion -- 6.1 Weathering of Arsenopyrite and Release of Arsenic in Groundwater -- 6.2 Geochemical Classification of the Groundwater -- 6.3 Potential Exploration Targets Using Arsenic as a Pathfinder Element -- 7 Conclusion -- References -- Recovery of Valuable Metals (Rare-Earths) from Phosphate Fertiliser Waste (Phosphogypsum) -- 1 Introduction -- 2 Global Scenario of Rock Phosphate Resources and Mining -- 2.1 World Scenario -- 2.2 Indian Scenario. 3 Generation of Phosphogypsum Waste in Phosphoric Acid Production -- 4 Recovery of REE from Phosphogypsum -- 5 Recovery of REE from Phosphoric Acid -- 6 Value Addition and Achievement of Circular Economy -- 7 Suggestions for Future Research -- 8 Summary -- References -- Harnessing the Potential of Microbes for Rejuvenating Soils from Mining Sites: An Initiative for Environmental Balance and Value Addition -- 1 Introduction -- 2 Types of Contamination Present at Different Mining Sites -- 2.1 Metals -- 2.2 Metalloids -- 2.3 Minerals -- 3 Types and Characterization of Microbial Communities Existing at Different Mined Sites -- 3.1 Microbial Diversity According to Mines Nature -- 3.2 Plant-Associated Microbial Communities in Different Mining Sites -- 4 Interactions and Communication Between Plant and Microbes at Mining Sites -- 5 Factors Involved and Affect the Bioremediation Process -- 5.1 Characteristic of Plant Species Used for Phytoremediation -- 5.2 Characteristics of the Medium -- 5.3 The Rhizospheric Region -- 5.4 Bioavailability of Heavy Metals -- 5.5 Environmental Conditions -- 5.6 Chelator Agents -- 6 Types of Remediation Processes Occur at Mining Sites -- 6.1 Phytoremediation -- 6.2 Rhizoremediation -- 6.3 Bioventing -- 6.4 Bioaugmentation -- 6.5 Biosparging -- 7 Strategies to Use of Rhizosphere Microorganisms in Recovery of Mined Sites -- 8 Role of Advance Molecular Techniques and Genetically Engineered Organism in Remediation of Mining Sites -- 9 Technological Limitations and Future Insight -- 10 Conclusion -- References -- Reduction of Hexavalent Chromium Using Microbial Remediation: A Case Study of Pauni and Taka Chromite Mines, Central India -- 1 Introduction -- 2 Health Hazards Due to Chromium Toxicity -- 3 Mode of Chromium Contamination of Soils -- 4 Effect of Hexavalent Chromium in Soils -- 4.1 Vegetation and Crops. 4.2 Animal and Human Health -- 4.3 Effect on Microorganisms -- 5 Bacterial Mechanisms of Chromium Tolerance -- 6 Methodology, Sampling, and Analysis -- 6.1 Sampling Method -- 6.2 Isolation and Characterization of Cr-Reducing Bacteria -- 6.3 Chromium Tolerance Test -- 6.4 Chromium Cr (VI) Reduction Assay -- 6.5 SEM and EDX Analysis -- 6.6 Antibiotic Susceptibility Test -- 6.7 Bacterial Identification -- 7 Result and Discussion -- 7.1 Soil Features -- 7.2 Identification of Promising Isolates -- 7.3 Evaluation of Chromium Tolerance -- 7.4 Identification of Bacterial Isolates -- 7.5 Chromium Reduction at Different Cr Concentration and Time -- 7.6 SEM-EDX Analysis -- 7.7 Chromium Reduction -- 8 Conclusion -- References -- Managing Water Quality in Mining Areas: Changing Paradigm of Sustainability -- 1 Introduction -- 2 Ground and Surface Water Pollution -- 3 Acid Mine Drainage (AMD) -- 4 Treatment of Acid Mine Drainage by Active and Passive System -- 5 Characteristic of Mine Wastewater and Chemical Properties of Polluted Water -- 6 Technologies to Combat Water Quality in Mining -- 6.1 Primary Treatment -- 6.2 Secondary Treatment -- 6.3 Tertiary Treatment/Advanced Wastewater Treatment -- 7 Treatment Techniques in Mines -- 8 The Role of Legislature in Mining Water Quality Management -- 9 Water Quality Management in Mining Field -- 10 Summary -- References -- Mineral and Mining Wastes: A Burgeoning Problem with a Need for Sustainable Restitution -- 1 Introduction -- 2 Overburden -- 3 Acid Mine Drainage -- 4 Slurry and Tailings -- 5 Sustainable Management of Mining Waste−The Need of the Hour -- References -- Distinctive Bats Species in Abandoned Mines: Adventure Geotourism for Nature Enthusiasts -- 1 Introduction -- 2 Geotourism at a Glance -- 3 Bats as a Potential Tourist Attraction -- 4 General Information About Bats -- 5 Importance of Bats. 6 World Scenario of Bats.
Record Nr.	UNINA-9910488691503321

Pubbl/distr/stampa	Cham, Switzerland : , : Springer, , [2022]
Descrizione fisica	1 online resource (368 pages)
Disciplina	622
Collana	Springer geology
Soggetto topico	Mine safety Mines and mineral resources Miners
ISBN	3-030-99495-3
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Record Nr.	UNINA-9910578699903321