An Appraisal of Coal Fly Ash Soil Amendment Technology (FASAT) of Central Institute of Mining and Fuel Research (CIMFR)
Coal will continue to be the predominant source of
global energy for coming several decades. The huge generation of fly
ash (FA) from combustion of coal in thermal power plants (TPPs) is
apprehended to pose the concerns of its disposal and utilization. FA
application based on its typical characteristics as soil ameliorant for
agriculture and forestry is the potential area, and hence the global
attempt. The inferences drawn suffer from the variations of ash
characteristics, soil types, and agro-climatic conditions; thereby
correlating the effects of ash between various plant species and soil
types is difficult. Indian FAs have low bulk density, high water
holding capacity and porosity, rich silt-sized particles, alkaline
nature, negligible solubility, and reasonable plant nutrients. Findings
of the demonstrations trials for more than two decades from lab/pot
to field scale long-term experiments are developed as FA soil
amendment technology (FASAT) by Central Institute of Mining and
Fuel Research (CIMFR), Dhanbad. Performance of different crops
and plant species in cultivable and problematic soils, are
encouraging, eco-friendly, and being adopted by the farmers. FA
application includes ash alone and in combination with
inorganic/organic amendments; combination treatments including
bio-solids perform better than FA alone. Optimum dose being up to
100 t/ha for cultivable land and up to/ or above 200 t/ha of FA for
waste/degraded land/mine refuse, depending on the characteristics of
ash and soil. The elemental toxicity in Indian FA is usually not of
much concern owing to alkaline ashes, oxide forms of elements, and
elemental concentration within the threshold limits for soil
application. Combating toxicity, if any, is possible through
combination treatments with organic materials and phytoremediation.
Government initiatives through extension programme
involving farmers and ash generating organizations need to be
accelerated
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(http//www.coalindia.nic.in/coalreserve.htm).
[2] L.C. Ram, R.E. Masto, "Review: An appraisal of the potential use of fly
ash for reclaiming coal mine spoil," J. of Environmental Management,
vol. 91, pp. 603-617, 2010.
[3] D.N.Tewari, "Review of forest management and policies," in Advances
in Land Resource Management for 21st Century: Soil Conservation
Society of India, 2000, pp. 415- 422.
[4] J. Veron, K. Horko, R. Kneipp, G. Rogers, "The Demography of South
Asia from the 1950s to the 2000s," 2008.
[5] D.K. Bhumbla, R.N. Singh, R.F. Keeker, Water quality from surface
mined land reclaimed with fly ash, in Proceedings of the Nineth Ash Use
Symposium American Coal Ash Association," vol. 57, pp. 1-22,
Academic Press, Orlando, FL., 1991.
[6] L.C. Ram, N.K. Srivastava, R.C. Tripathi, , S.K. Jha, A.K. Sinha,
G.Singh, V. Manoharan, "Management of mine spoil for crop
productivity with lignite fly ash and biological amendments,"J. Environ
Management, vol. 79, pp. 173-187, 2006a.
[7] L.C. Ram, N.K. Srivastava, S.K. Jha, A.K. Sinha, R.E. Masto, V.A.
Selvi, "Management of lignite fly ash through its bulk use via biological
amendments for improving the fertility and crop productivity of soil,"
Environmental Management, vol. 40, pp. 438-452, 2007b.
[8] S. Karmakar, B.N. Mittra, B.C. Ghosh, "Enriched coal ash utilization for
augmenting production of rice under acid lateritic soil," Coal
Combustion and Gasification Products, vol. 2, pp. 45-50, 2010,
[9] V. Vijayan, S.N. Behera, "Studies on heavy elements and radioactivity
of crops grown in soils treated with fly ash, in L.C. Ram et al., editor.,"
Proc. National Seminar ÔÇÿUtilization of Fly Ash in Agriculture and for
Value Added Products- (ISBN 81-7525-184-0), Technical Session II,
CFRI, Dhanbad, India, 1999, pp. 61.
[10] O.E. Manz, "Coal fly ash: a retrospective and future look," Fuel, vol. 78,
pp. 133-136, 1999.
[11] ASTM C618-99, "Standard Specification for Coal Fly Ash and Raw or
Calcined Natural Pozzolan for Use as Mineral Admixture in Concrete,"
ASTM International/10-Jun-1999/3 pages.
[12] G.R. Dewey, L.L. Sutter, J.F. Sandell, "Reactivity based approach for
classifying fly ash," in American Power Conference. Chicago: IL, 1996
6, pp.1-4.
[13] S.V. Vassilev, C.G. Vassileva, "Anewapproach for the classification of
coalflyashes based on their origin, composition, properties, and
behavior," Fuel, vol. 86, pp. 1490-1512, 2006.
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@article{"International Journal of Earth, Energy and Environmental Sciences:52128", author = "L.C. Ram and R.E. Masto and Smriti Singh and R.C. Tripathi and S.K. Jha and N.K. Srivastava and A.K. Sinha and V.A. Selvi and A. Sinha", title = "An Appraisal of Coal Fly Ash Soil Amendment Technology (FASAT) of Central Institute of Mining and Fuel Research (CIMFR)", abstract = "Coal will continue to be the predominant source of
global energy for coming several decades. The huge generation of fly
ash (FA) from combustion of coal in thermal power plants (TPPs) is
apprehended to pose the concerns of its disposal and utilization. FA
application based on its typical characteristics as soil ameliorant for
agriculture and forestry is the potential area, and hence the global
attempt. The inferences drawn suffer from the variations of ash
characteristics, soil types, and agro-climatic conditions; thereby
correlating the effects of ash between various plant species and soil
types is difficult. Indian FAs have low bulk density, high water
holding capacity and porosity, rich silt-sized particles, alkaline
nature, negligible solubility, and reasonable plant nutrients. Findings
of the demonstrations trials for more than two decades from lab/pot
to field scale long-term experiments are developed as FA soil
amendment technology (FASAT) by Central Institute of Mining and
Fuel Research (CIMFR), Dhanbad. Performance of different crops
and plant species in cultivable and problematic soils, are
encouraging, eco-friendly, and being adopted by the farmers. FA
application includes ash alone and in combination with
inorganic/organic amendments; combination treatments including
bio-solids perform better than FA alone. Optimum dose being up to
100 t/ha for cultivable land and up to/ or above 200 t/ha of FA for
waste/degraded land/mine refuse, depending on the characteristics of
ash and soil. The elemental toxicity in Indian FA is usually not of
much concern owing to alkaline ashes, oxide forms of elements, and
elemental concentration within the threshold limits for soil
application. Combating toxicity, if any, is possible through
combination treatments with organic materials and phytoremediation.
Government initiatives through extension programme
involving farmers and ash generating organizations need to be
accelerated", keywords = "Fly ash, soil quality, CIMFR, FASAT, agriculture,forestry, toxicity, remediation", volume = "5", number = "4", pages = "214-12", }
