JavaScript must be enabled in order for you to use the Site in standard view. However, it seems JavaScript is either disabled or not supported by your browser. To use standard view, enable JavaScript by changing your browser options.

You are here : Home FLY ASH
| Last Updated:: 17/07/2014

FLY ASH

 

 

 

WELCOME TO THE
FLY ASH SECTION

 

 

  1. Use of fly ash in Coal Mines
  2. The Potential for Beneficial Reuse of Coal Fly Ash in Southwest Virginia Mining Environments
  3. Report of one day workshop on Fly Ash Utilization in Coal & Mining Sector held on 29.08.2012
  4. Disposal of Coal Combustion Byproducts in Underground Coal Mines
  5. Technology: Flyash Disposal and Utilization: The Indian Scenario
  6. Reclamation of mining degraded land filled with fly-ash in Jharia Coal Field, India-A case Study
  7. Stability of Fly Ash and Overbuden Material as Back Filling in Opencast Mines –A Case Study
  8. A review on the utilization of fly ash
  9. A SHORT NOTE ON THE CHARACTERISATION OF FLY ASH FROM CHANDRAPURA THERMAL POWER STATION, BOKARO, JHARKHAND, INDIA
  10. A SEASONAL ASSESSMENT OF THE IMPACT OF COAL FLY ASH DISPOSAL ON THE RIVER YAMUNA, DELHI
  11. An Appraisal of Coal Fly Ash Soil Amendment Technology (FASAT) of Central Institute of Mining and Fuel Research (CIMFR)
  12. An Ecophysiological Study of Plants Growing on the Fly Ash Deposits from the “Nikola Tesla–A” Thermal Power Station in Serbia
  13. An introductory TEM study of Fe-nanominerals within coal fly ash
  14. ASSESSING TRACE ELEMENT UPTAKE BY VEGETATION ON A COAL FLY ASH LANDFILL
  15. ASSESSMENT OF PHYSICO CHEMICAL PROPERTIES OF FLY ASH FROM TISCO POWER PLANT, JAMADOBA, JHARIA COALFIELDS, JHARKHAND, INDIA
  16. Bioaccumulation and translocation of metals in the natural vegetation growing on fly ash lagoons: a field study from Santaldih thermal power plant, West Bengal, India
  17. Changes in physical and chemical properties of three soil types in India as a result of amendment with fly ash and sewage sludge
  18. Changes in Selenium, Copper, Cadmium, and Zinc Concentrations in Mullet (Mugil cephalus) from the Southern Basin of Lake Macquarie, Australia, in Response to Alteration of Coal-Fired Power Station Fly Ash Handling Procedures
  19. Chemical properties of forest soils along a fly-ash deposition gradient in eastern Germany
  20. Comparison between different leaching tests for the evaluation of metal release from fly ash
  21. Comprehensive Characterization Of Coal Fly Ash For Beneficial Utilization Towards Environment
  22. Effects of coal fly ash amended soils on trace element uptake in plants
  23. Efficacy of fly-ash based bio-fertilizers vs perfected chemical fertilizers in wheat (Triticum aestivum)
  24. FLY ASH: AN ENVIRONMENT SAVIOUR
  25. Fly ash characterization, utilization and Government initiatives in India – A review
  26. Fly Ash Soil Amendment Technology (FASAT)
  27. Fly Ash: A Potential Excellent Scrubber for Acidic Wastes in Israel
  28. FLY ASH UTILISATION
  29. FLYASH GROUT TESTING IN A SIMULATED WET MINE ENVIRONMENT
  30. Impacts of fly-ash on soil and plant responses
  31. Increase the utilisation of fly ash with electrostatic precipitation
  32. INSTRUMENTAL DETERMINATION OF TRACE METALS IN FLY ASH BY INAA AND AAS TECHNIQUES AND ITS STATISTICAL ANALYSIS
  33. An appraisal of the potential use of fly ash for reclaiming coal mine spoil
  34. Leaching characteristics of fly ash
  35. Leaching of elements from coal fly ash: Assessment of its potential for use in filling abandoned coal mines
  36. Long-term evaluation of coal fly ash and mine tailings co-placement: A site-specific study
  37. Mass Release of Trace Elements from Coal Combustion By-Products
  38. Steady-State Statistical Approach to the Prediction of Physico-Chemical Properties of Fly-Ash for Eroded Soil Reclamation and Vegetation
  39. The Environmental Impacts of Using Fly Ash – the UK Producers’ Perspective
  40. The Potential for Beneficial Reuse of Coal Fly Ash in Southwest Virginia Mining Environments
  41. The preliminary characterisation of flyash from Jamadoba Thermal Power Station (JTPS), Jharia Coalfields, Jharkhnad
  42. Structural analysis of coal ash based mine prop
  43. Automated Characterisation of Individual Carbonaceous Fly Ash Particles by Computer Controlled Scanning Electron Microscopy: Analytical Methods and Critical Review of Alternative Techniques.
  44. Characterization of Acid Leaching Reactions in Coal Refuse/Coal Fly Ash Bulk Blends
  45. Combined Statistical Model for the Leaching of Heavy Metals from Fly Ash Solidified/Stabilized Wastes
  46. Evaluation of Water Quality Conditions Associated with the Use of Coal Combustion Products for Highway Embankments
  47. Fly Ash Amendment Notification - Draft Issued by MoEF
  48. Utilization of Fly ash for Crop Production: Effect on the Growth of Wheat and Sorghum Crops and Soil Properties
  49. Coal Fly Ash as Contaminant Barrier for Reactive Mine Tailings
  50. Hazardous Effect of Coal Ash
  51. UTILIZATION OF FLY ASH FOR TREATMENT OF ACID MINE WATER
  52. Fly Ash for Stabilization of Historic Mine Waste Deposits
  53. GEOTECHNICAL CHARACTERISATION OF FLY ASH COMPOSITES FOR BACKFILLING MINE VOIDS
  54. USE OF COAL ASH IN MINE BACKFILL AND RELATED APPLICATIONS
  55. Management of Tailings and Waste-Rock in Mining Activities
  56. Phytostabilization of mine tailings covered with fly ash and sewage sludge
  57. Studies to Limit Bioaccumulation of Heavy Metals in Biomass Grown on Lignite Fly Ash Deposits
  58. The Use and Disposal of Coal Combustion By-Products at Coal Mines: A Technical Interactive Forum
  59. A Study on Particle Size Distribution Profile of Coal Combustion Residues from Thermal Power Plants of India
  60. Absorption of Phenol from Aqueous Solution onto Fly Ash from a Thermal Power Plant
  61. Fly Ash Production And Utilasation : An indian Perspective
  62. Physical Characterisation and Leachate Test of Fly Ash from Chandrapura Thermal Power Sattion, Jharkhand, India
  63. Removal of Dyes from Wastewater Using Flyash, a Low-Cost Adsorbent
  64. Utilization of Fly Ash as Filling Material in Underground Mines: A Case Study
  65. LONG-TERM LEACHING STUDY OF COAL COMBUSTION RESIDUES FROM TISCO FLUIDISED BED COMBUSTION PLANT AT JAMADOBA
  66. Exploring Potential of Fly Ash Utilization and Disposal of Korba Coalfields Coal mines vis-a-vis Societal Development
  67. Environmental Assessmet of Fly Ash in its Disposal Environment at FCI Ltd., Sindri
  68. ENVIRONMENTAL ASSESSMENT OF FLY ASH FROM SOME THERMAL POWER STATIONS FOR RECLAMATION OF MINED OUT AREAS
  69. Impact of Flyash on Soil Quality Around A Thermal Power Station with References to Toxic Elements
  70. STUDY OF THE POSSIBILITY OF UTILIZING FLY ASH FOR BACK FILLING AND RECLAMATION OF OPENCAST MINES: PLOT AND FIELD SCALE STUDY WITH CHANDRAPURA FLY ASH
  71. "Environmental Management of Coal Combustion Residues of Thermal Power Plants in India"
  72. A NOTE ON THE SAFE DISPOSAL OF FLY ASH AND ITS IMPACT ON THE SURROUNDING AREA
  73. Fly Ash Use in Pressurized Grout Remote Backfilling of Abandoned Underground Mines in North Dakota