Mine drainage and related problems / Brock C. Robinson, editor.
Material type:
TextSeries: Environmental science, engineering and technology seriesPublisher: New York : Nova Science Publishers, Inc., [2010]Description: 1 online resourceContent type: - text
- computer
- online resource
- 9781616686437
- 161668643X
- 622/.5 22
- TD428.M56
| Item type | Home library | Collection | Call number | Materials specified | Status | Date due | Barcode | |
|---|---|---|---|---|---|---|---|---|
Electronic-Books
|
OPJGU Sonepat- Campus | E-Books EBSCO | Available |
Includes bibliographical references and index.
Description based on print version record.
Includes bibliographical references and index.
English.
MINE DRAINAGE AND RELATEDPROBLEMS; ENVIRONMENTAL SCIENCE, ENGINEERINGAND TECHNOLOGY; CONTENTS; PREFACE; EFFECTIVENESS AND SUSTAINABILITY OF ACTIVEAND PASSIVE SYSTEMS FOR THE TREATMENT OFACID MINE DRAINAGE AND THE RECOVERY OFMETALS: A REVIEW; ABSTRACT; 1. INTRODUCTION; 1.1. Scope of Review; 1.2. Chemistry of Acid Mine Drainage; Oxidation of iron sulphide; 2. KEY CONSIDERATIONS FOR TREATMENT SYSTEM DESIGN; 2.1. Source Control versus Migration Control; 2.2. Temporal Changes in AMD; Long-term and seasonal changes; Vestigial and juvenile acidity; 2.3. Factors Affecting Metal Concentrations.
2.4. Sulphate Chemistry in AMD Treatment3. ACTIVE TREATMENT SYSTEMS; 3.1 Oxidation and Chemical Neutralization; Precipitation and pH; Problems with limestone and alternative techniques; Hydroxide sludge; Case study: High density sludge process, Wheal Jane, UK; Pulsed limestone bed; Chelating reagents; 3.2. Flotation; 3.3. Membrane Filtration; Ultrafiltration; Nanofiltration; Reverse osmosis; 3.4. Ion Exchange; 3.5. Sulphate Reducing Bacteria-Based Systems; SRB bioreactors: System configurations; Metal recovery using SRB systems; 3.6. Adsorption; Sorptive flotation.
Adsorption onto inorganic materialsBiosorption; 3.7. Emulsion Liquid Membrane Technology; 4. PASSIVE TREATMENT SYSTEMS; 4.1. Constructed Wetlands; Aerobic wetlands; Co-treatment of AMD and sewage effluent; Compost wetlands; 4.2. Anoxic Limestone Drains; 4.3. Open Limestone Channels and Limestone Leach Beds; 4.4. SRB-Based Passive Systems; SRB bioreactor (passive); Infiltration beds and anoxic ponds; SRB-based systems for groundwater remediation; Case study: Permeable reactive barrier, nickel rim, ontario, canada; Case study: In situ bioreactor, lilly/orphan boy mine, montana, USA.
Successive alkalinity producing system (SAPS)4.5. Other Passive Systems; 5. CONCLUSION; REFERENCES; ACID MINE DRAINAGE IN THE PORTUGUESEIBERIAN PYRITE BELT; ABSTRACT; INTRODUCTION; IBERIAN PYRITE BELT; PORTUGUESE IBERIAN PYRITE BELTEXPLOITATION HISTORICAL VIEW; ACID MINE DRAINAGE IN THE PORTUGUESE IBERIAN PYRITE BELT; Acid Mine Drainage; Caveira Mine Area; Geology and mining exploration; Acid mine drainage characterization; Lousal Mine Area; Geology and mining exploration; Acid mine drainage characterization; Aljustrel Mine Area; Geology and mining exploration.
Acid mine drainage characterizationSão Domingos Mine Area; Geology and mining exploration; Acid mine drainage characterization; CONCLUSION; ACKNOWLEDGMENT; REFERENCES; BIOGEOCHEMISTRY OF ACID MINEDRAINAGE FORMATION: A REVIEW; ABSTRACT; 1. INTRODUCTION; 2. SOURCES OF ACID MINE DRAINAGEAND SOME EXAMPLES FROM INDIA; 3. BASIC CHEMISTRY OF ACID MINE DRAINAGE; 4. CONTRIBUTING FACTORS OF ACID MINE DRAINAGE; 4.1. Primary/Generation Factors; 4.1.1. Sulphide minerals; 4.1.2. Water; 4.1.3. Oxygen; 4.1.4. Bacteria/ microenvironment; 4.1.5. pH.
eBooks on EBSCOhost EBSCO eBook Subscription Academic Collection - Worldwide
There are no comments on this title.