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2011 | 11 |
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Fly ash in agriculture - modern applications of coal combustion by-products

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Popioly lotne a rolnictwo - nowoczesne zastosowania ubocznych produktow spalania
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  • Department of Environmental Engineering and Mineral Processing, Faculty of Mining and Geoengineering, AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Krakow, Poland
  • Ahmaruzzaman M., 2010: Areview on the utilization of fly ash. Progress in Energy and Combustion Science 36, 327 - 363.
  • Ajaz S., Tiyagi S., 2003: Effect of different concentrations of fly-ash on the growth of cucumber plant, Cucumis sativus. Archives of Agronomy and Soil Science 49, 457 - 461.
  • Ayala J., Blanco F., Garcia P., Rodriguez P., Sancho J., 1998: Austrian fly ash as a heavy metals removal material. Fuel 77 (11), 1147 - 1154.
  • Ciccu R., Ghiani M., Peretti R., Serci A., Zucca A., 2001: Нeavy metal immobilization using fly ash in soils contaminated by mine activity.
  • Ciccu R., Ghiani M., Serci A., Fadda S., Peretti R., Zucca A., 2003: Неаѵу metal immobilization in the mining-contaminated soils using various industrial wastes. Minerals Engineering 16, 187 - 192.
  • Ciećko Z., Żołnowski A. C., Kulmaczewska J., Chełstowski A., 2009: Effect of successive doses of drainage from coal ash to soil acidity (Wpływ następczy melioracyjnych dawek popiołów z węgla kamiennego na kwasowość gleby). Zeszyty problemowe postępów nauk rolniczych 535, 73 - 83.
  • Cornell R. M., Schwertmann U., 2003: The Iron Oxides: Structure, Properties, Reactions, Occurrences and Uses. Second ed. Wiley-ѴСН, Weinheim.
  • Eswaran А., Мanivannan K., 2007: Effect of foliar application of lignite fly ash on the management of papaya leaf curl disease. Acta Horticulturae (ISHS) 740, 271- 275.
  • Feng Y. J. , Li F., Wang X. L., Liu X. M., Zhang L. N., 2006: Principal Chemical Properties of Artificial Soil Composed of Fly Ash and Furfural Residue. Pedosphere 16(5), 668-672.
  • Ferreira C., Ribeiro A., Ottosen L., 2003: Possible applications for municipal solid waste fly ash. Journal of Hazardous Materials B96, 201 - 216.
  • Fulekar M. H., 1993: The pH effects on leachability of fly-ash heavy metals: laboratory experiment. Indian Journal of Environmental Protection 13, 185 - 192.
  • Goyal D., Kaur K., Garg R., Vijayan V., Nanda S. K., Nioding A., Khanna S., Ramamurthy V., 2002: Industrial fly ash as a soil amendment agent for raising forestry plantations. In: Taylor P. R. (Ed.), 2002. EPD Congress and Fundamental of Advanced Materials for Energy Conversion, TMS Publication, Warrendale, PA, 251 - 260.
  • Gracia G., Zabaleta I., Canibano J. G., Gyeyo M. A., 1995: Use of coal ash/mine waste in agriculture; their properties from agriculture point of view. Coal Abstracts 95, 32 - 46.
  • Haynes R. J., 2009: Reclamation and revegetation of fly ash disposal sites -challenges and research needs. Journal of Environmental Management 90, 43 - 53.
  • Iyer R.S., Scott J.A., 2001: Power station fly ash — a review of value-added utilization outside of the construction industry. Resources, Conservation and Recycling 31, 217 - 228.
  • Kalra N., Joshi H. C., Chaudhary A., Chaudhary R., Sharma S. K., 1997: Impact of fly ash incorporation in soil on germination of crops. Bioresource Technology 61, 39 - 41.
  • Khan M. R., Khan M. W., 1996: The effect of fly-ash on plant growth and yield of tomato. Environmental Pollution 92, 105 – 111.
  • Kumpiene J., Lagerkvist A., Maurice C., 2007: Stabilization of Pb and Cu contaminated soil using coal fly ash and peat. Environmental Pollution 145, 365 - 373.
  • Lai K. M., Ye D. Y., Wong J. W. C., 1999: Enzyme activities in sandy soil amended with sewage sludge and coal fly ash. Water, Air, & Soil Pollution 113, 261 - 272.
  • Mendki P. S., Maheshwari V. L., Kothari R. M., 2001: Fly-ash as a post-harvest preservative for five commonly utilized pulses. Crop Protection 20, 241 - 245.
  • Menon M. P., Sajwan K. S., Ghuman G. S., James J., Chandra K., 1993: Fly ash-amended compost as a manure for agricultural crops. Journal of Environmental Science and Health, Part A: Environmental Science and Engineering 28, 2167 - 2182.
  • Narayanasamy P., 2005: Prospect of use of fly-ash as a dust insecticide and a carrier in pesticide formulation. In: Proceedings of the National Seminar Cum Business Meet on Use of Fly-ash in Agriculture. FAUP, TIFAC, DST, New Delhi, 50 - 57.
  • Narayanasamy P., Gnanakumar D., 1989: A. Lignite fly-ash: a nonpolluting substance for tackling pest problems. In: Devaraj KV (ed), 1989: Progress in pollution research. University of Agricultural Sciences, Bangalore, 201 - 206.
  • Pandey V. C., Abhilash P.C., Singh N., 2009: The Indian perspective of utilizing fly ash in phytoremediation, phytomanagement and biomass production. Journal of Environmental Management 90, 2943 - 2958.
  • Pandey V. C., Singh N., 2010: Impact of fly ash incorporation in soil systems. Agriculture, Ecosystems and Environment 136, 16 - 27.
  • Phung H. T., Lam H. V., Page A. L., Lund L. J., 1979: The practice of leaching boron and soluble salts from fly ash-amended soils. Water, Air, & Soil Pollution 12, 247 - 254.
  • Ram L. C., Masto R. E., 2010: An appraisal of the potential use of fly ash for reclaiming coal minę spoił. Journal of Environmental Management 91, 603 - 617.
  • Riekerk H., 1984: Coal-ash effects on fuel-wood production and runoff water quality. Southern Journal of Applied Forestry 8, 99 - 102.
  • Sankari S. A., Narayanasamy P., 2007: Bio-efficacy of fly-ash based herbal pesticides against pests of rice and vegetables. Current Science 92, 811 - 816
  • Singh A., Agrawal S. B., 2010: Response of mung bean cultivars to fly ash: Growth and yield. Ecotoxicology and Environmental Safety 73/ 8, 1950 - 1958.
  • Singh R. P., A.K. Gupta, Ibrahim M. H., Mittal A. K., 2010: Coal fly ash utilization in agriculture: its potential benefits and risks. Review Environmental Science Biotechnology 9, 345 -358.
  • Sobik-Szołtysek J., Janecka B., 2006: Analysis of the possibilities of unconventional fly ash utilization (Analiza możliwości zagospodarowania popiołów lotnych metodami niekonwencjonalnymi). Ochrona Powietrza i Problemy Odpadów 40 (6), 184 - 193.
  • Sumner M. E., Miller W. P., Kookana R. S., Hazelton P., 1998: Sodicity, dispersion, and environmental quality, Sodic Soils: Distribution, Properties, Management and Environmental Consequences. In: Sumner M.E., Naidu R. (Eds.), 1998. Oxford University Press, New York, 149 - 172.
  • Szponder D. K., Trybalski К., 2009a: Identification of the fly ash properties by using different methods and equipments (Określanie właściwości popiołów lotnych przy użyciu różnych metod i urządzeń badawczych). Górnictwo i Geoinżynieria, 33/4, 287 - 298.
  • Szponder D. K., Trybalski K., 2009b: Influence of fly ash strncture, phase and diversification of Chemical composition on their utilization process. 13th Conference on Environment and minerał processing: 4.-6. 6. 2009, Ostrava, Czech Republic, Part I, VSB - Technical University of Ostrava, Faculty of Mining and Geology, Institut of Environmental Engineering; Ostrava, 121 - 127.
  • Tolle D. A., Arthur M. F., Van Voris P., 1983: Microcosm/field comparison of trace element uptake in crops grown in fly ash amended soil. Science of the Total Environment 31, 243 - 263.
  • Vincini M., Carini F., Silva S., 1994: Use of alkaline fly ash as an amendment for swine manure. Bioresource Technology 49, 213 - 222.
  • Właśniewski S., 2009: Elfect of fertilization with fly ash from coal on selected Chemical properties of sandy soil and yield of Atos (Wpływ nawożenia popiołem lotnym z węgla kamiennego na wybrane właściwości chemiczne gleby piaszczystej i plonowanie owsa). Ochrona Środowiska i Zasobów Naturalnych 41, 479 - 488.
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