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Tytuł artykułu

Liming of Acidic Soils with Belite Sludge

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The metallurgical enterprises are a major source of large-tonnage industrial wastes containing valued components. A significant discrepancy between the volumes of waste formations and its utilisation leads to the necessity of large-scale sludge dumping. The article describes a recycling method for belite sludge that is the waste of the alumina production from nepheline concentrate. The physical and chemical properties of belite sludge were analysed and the conclusions about the possibility and outlook of its using as an ameliorant were drown. The main results show that adding the belite sludge to acidic soils provides a certain positive effect. The main conclusions allow to say that belite sludges are an ecologically safe substance that can be used as a liming material for acidic soils.
Rocznik
Strony
95--102
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
autor
  • Saint Petersburg Mining University, 21st line V.O., 2, 199106 Saint Petersburg, Russian Federation
  • Saint Petersburg Mining University, 21st line V.O., 2, 199106 Saint Petersburg, Russian Federation
Bibliografia
  • 1. Alekseenko, V.A., Bech, J., Alekseenko, A.V., Shvydkaya, N.V., Roca, N., 2016. Environmental impact of disposal of coal mining wastes on soils and plants in Rostov Oblast, Russia. Journal of Geochemical Exploration. In press. DOI: 10.1016/j.gexplo.2017.06.003
  • 2. Alvarenga, P., Palma, P., Gonçalves, A.P., Duarte, E., Cunha-Queda, A.C., 2008. Assessment of chemical, biochemical and ecotoxicological aspects in a mine soil amended with sludge of either urban or industrial origin. Chemosphere, 72 (11), pp. 1774-1781.
  • 3. Antoniadis, V., Damalidis, K., Dimirkou, A., 2012. Availability of Cu and Zn in an acidic sludge-amended soil as affected by zeolite application and liming. Journal of Soils and Sediments, 12 (3), pp. 396-401.
  • 4. Antoniadis, V., Tsadilas, C.D., Ashworth, D.J., 2007. Monometal and competitive adsorption of heavy metals by sewage sludge-amended soil. Chemosphere, 68 (3), pp. 489-494.
  • 5. Antoniadis, V., Tsadilas, C.D., Samaras, V., Sgouras, J., 2006. Availability of heavy metals applied to the soil through sewage Sludge. In: Prasad M.N.V., Sajwan K.S., Naidu R. (eds.), Trace Elements in the Environment, Boca Raton: CRC Press, pp. 39-61.
  • 6. Beloglazov, I.I., Suslov, A.P. Pedro, A.A., 2014. Change of constant component of phase voltage during melting of zirconium corundum. Tsvetnye Metally, 5, pp. 86-89.
  • 7. Bezel’, V.S., Zhuikova, T.V., 2007. Chemical pollution: Transfer of chemical elements to the abover-ground phytomass of herbaceous plants. Russian Journal of Ecology, 38 (4), pp.238-246.
  • 8. Cehlár, M., Domaracká, L., Šimko, I., Puzder, M., 2016. Mineral resource extraction and its political risks. Production Management and Engineering Sciences – Scientific Publication of the International Conference on Engineering Science and Production Management, ESPM 2015, pp. 39-43
  • 9. Dyakonov, K.N., Anoshko, V.S., 1995. Meliorative geography. Moscow, 254 p.
  • 10. Fauziah, C.I., Hanani, M.N., Zauyah, S., Samsuri, A.W., Rosazlin, A., 2011. Co-application of Red Gypsum and Sewage Sludge on Acidic Tropical Soils. Communications in Soil Science and Plant Analysis, 42 (21), pp. 2561-2571.
  • 11. Lavrischev, A.V., Pavlova, O.Yu., Kovleva, A.O., Litvinovich, A.V., 2013. Consequences of application of conversion chalk for amelioration of acidic soils: strontium in a soil-plant system. Pochvovedenie, 9, pp. 1136-1150.
  • 12. Loginova, I.V., Kirchikov, A.V., Penyugalova, N.P., 2015. Technology of alumina production. Ekaterinburg, 336 p.
  • 13. Nakvasina, E.N., Zemtsovskaya O.N., Denisova, A.I., 2014. The use of grasses for biological recultivation of disturbed lands of the North. Arctic Environmental Research, 4, pp. 81-89.
  • 14. Orlov, D.S., Sadovnikova, L.K., Lozanovskaya, I.N., 2002. Ecology and Biosphere Protection at Chemical Contamination. Moscow, 334 p.
  • 15. Pashkevich, M.A., Petrova, T.A., 2015. New isolation materials for technogenic deposits conservation. Obogashchenie Rud 6, pp. 46-49.
  • 16. Pavolová, H., Khouri, S., Cehlár, M., Domaracká, L., Puzder, M., 2016. Modelling of copper and zinc adsorption onto zeolite. Metalurgija, 55 (4), pp. 712-714.
  • 17. Ravich, B.M., 1988. Complex use of raw materials and wastes. Moscow, 288 p.
  • 18. Shchukina, E.G., Bepple R.R., Archinicheva, N.V., 2004. Complex use of mineral raw materials and industrial wastes in the production of building materials. Ulan-Ude, 109 p.
  • 19. Simard, R.R., Beauchemin, S., Laverdière, M.R., 1999. Limed sewage sludge effects on nutrient status and metal fractions in acidic soils. Canadian Journal of Soil Science, 79 (1), pp. 173-182.
  • 20. State report «State and Protection of the Environment of the Russian Federation in 2015». Moscow, 2016.
  • 21. Sushkov, A.I., Troitsky, I.A., Eidenzon, M.A., 1957. Metallurgy of light metals. Sverdlovsk, 511 p.
  • 22. Tsadilas, C., Shaheen, S.M., Samaras, V., Gizas, D., Hu, Z., 2009. Influence of fly ash application on copper and zinc sorption by acidic soil amended with sewage sludge. Communications in Soil Science and Plant Analysis, 40 (1-6), pp. 273-284.
  • 23. Yanenkov, S.A., 2009. Evaluation of the effectiveness of various ameliorants in the liming of acid sod-podzolic soils under fodder crops. Smolensk, 21 p.
  • 24. Yaskov, M.I., 2009. Soil science. Gorno-Altaisk, 52 p.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-05d8d268-b575-4823-92e3-977764888005
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