Coal and Peat Fires: A Global Perspective

Coal and Peat Fires: A Global Perspective

Volume 3: Case Studies - Coal Fires

Prakash, Anupma; Sokol, Ellina V.; Stracher, Glenn B.

Elsevier Science & Technology

816

Mole

Inglês

9780444638397

Descrição não disponível.
Volume 3: Case Studies -- Coal Fires 1. Spontaneous Combustion in Open-Cut Coal Mines: Australian Experience and Research 2. Nanominerals and Ultrafine Particles from Brazilian Coal Fires 3. Remote and In Situ Mapping of Coal Fires: Case Studies from China and India 4. Coal Combustion and Mineralization in the Helen Shan Mountains of Northern China 5. Mineralogy of Burning-Coal Waste Piles in Collieries of the Czech Republic 6. Combustion Metamorphism in the Most Basin, Czech Republic 7. Mineralogy of the Burning Anna I Coal-Mine Dump, Alsdorf, Germany 8. Geothermal Utilization of Smoldering Mining Dumps 9. Impact of Mining Activites on Land Use Land Cover in the Jharia Coalfield, India 10. Stone-Tool Workshops of the Hatrurim Basin, Israel: Mineralogy, Geochemistry, and Rock Mechanics of Lithic Industrial Materials 11. Geophysics of Pyrometamorphic and Hydrothermal Rocks of the Nabi Musa Mottled Zone, Vicinity of the Dead Sea Transform, Israel 12. Preliminary Assessment of the Coal Fires of Malawi 13. Fire Prevention in Coal-Waste Dumps: Exemplified by the Rymer Cones, Upper Silesian Coal Basin, Poland 14. Thermal Transformations of Waste Rock at the Starzykowiec Coal- Waste Dump, Poland 15. The Thermal History of Select Coal-Waste Dumps in the Upper Silesian Coal Basin, Poland 16. Coal Mining and Combustion in the Coal-Waste Dumps of Poland 17. Mineral Transformations and Actinide Transport: Combustion Metamorphism in the Wojkowice Coal-Waste Dump, Upper Silesian Coal Basin, Poland 18. Mineralogy and Magnetic Parameters of Materials Resulting from the Mining and Consumption of Coal from the Douro Coalfield, Northwest Portugal 19. Ancient Coal Fires on the Southwestern Periphery of the Kuznetsk Basin, West Siberia, Russia: Geology and Geochronology 20. Ellestadite-Group Minerals in Combustion Metamorphic Rocks 21. Fayalite from Paralavas Associated with Natural Coal Fires: Combustion Metamorphic Complexes in the Kuznetsk Coal Basin,Russia 22. Mineralogy and Origin of Fayalite-Sekaninaite Paralava: Ravat Coal Fire, Central Tajikistan 23. The "Volcanoes" of Midwestern Venezuela 24. Coal-Fire Hazard Mapping in High-Latitude Coal Basins: A Case Study from Interior Alaska 25. Anthracite Coal-Mine Fires of Northeastern Pennsylvania 26. Historic Record of Coal Fires in the Richmond Basin, Virginia 27. Coal Fires of the Pacific Northwet, USA 28. Combustion Mineralogy and Petrology of Oil-Shale Slags, Lapanouse, Severac-le-Chateau, Aveyron, France: Analogies with Hydrocarbon-Fires 29. A Review of Coal-Fire Sampling Methods
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Acidic solutions; Actinide transport; Alaska; Alsdorf; analytical techniques; Anna coal mine; Anna I dump; Atmospheric emissions; Bifacial tools; burned coal spoil-heaps; Burning; Burning coal mine dump; Burning/burnt coal waste; Cameron Collery; Carbondale PA mine fire; Centralia mine fire; Centralia PA; Chelyabinsk coal basin; Chemical analysis; China; chlor-fluorellestadite; Clinker; Clinoferrosilite; CM-melt; CO; CO2; coal; Coal fire; Coal fire risk area; Coal fires; Coal mining; Coal mining residues; Coal waste; Coal-fire; Coal-Fire Minerals; Coal-waste dump; Coal-waste dump fire; Combustion; Combustion metamorphism; Combustion metamorphism.; Czech Republic; Dead Sea Transform; Dead Sea Transform Fault; Earth observation; Eastport Coal Mine; Excelsior PA mine fire; Fan-Yagnob coal deposit; Fayalite; Fire prevention; Fluorellestadite; Fly ash; Formation of gas-vent minerals; gas emission velocity; GC-MS; Geochemistry; Geothermal Utilization; Gravity field; Green River Coal Fire; Greenhouse; Hatrurim Basin; Hatrurim Complex; Hazard mapping; Heckschersville Anchor Collery; Hematite; Hercynite; High latitudes; high-temperature mineral; Hydrocarbon gas traps; In situ mapping; India; Jharia; Judean-Samarian Mountains; Karoo; Klondike Coal Mine; Kuznetsk coal basin; Laboratory Test; Landsat; Landsburg Coal Mine; Late Cenozoic; Laurel Run PA mine fire; Lignite; Macerals; Maghemite; Magnetic field; Magnetic parameters; Magnetism; Magnetite; Malawi; Mechanics parameters; mercury; Methods of burning dumps extinguishing; Mildred PA mine fire; mine fires in northeast Pennsylvania; Mineral transformations; Mineralogy; minerals; Nabi Musa; Nanominerals; Neotectonic events; Northeast Pennsylvania mine fires; oil shale; Olyphant PA mine fire; Open-cut mining; Oregon State Coal Fires; Organic compounds; Pacific Northwest; Palo Alto PA mine fire; Panther Valley PA; Paralava; petrified wood; Pilot Plant; Poland; prograde assemblage; Pyrolysis; Pyrometamorphic rocks; Pyrometamorphism; Quenching; Radioactivity field; Ravat coal fire; Reaction of gases; Remote sensing and GIS; retrograde assemblage; Ruqigou; Ruqigou Coalfield; sampling; Satellite image analyses; Sekaninaite; Self-heating; Self-ignition prevention; Shear Strength; Shenandoah PA; slag; Slates; Smoldering Mining Dump; Spontaneous Combustion; Stone tool workshops; Sublimate; Sublimation; Sulfate; Tajikistan; Tamaqua PA; tars; technology; temperature; Thermal anomaly detection; Thermal Response Test; Thermochemical Mineralization Processes; Tridymite; Ultrafine particles; USA Coal Fires; volatile organic compounds; Washington State Coal Fires; Waste deposition; Waste piles; Wuda; Wuda Coalfield; X-ray diffraction analysis