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Spent Biosorbents as Additives in Cement Production

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The research is related to solving the problem of rational use of materials and to the creation of resource-saving technologies for the protection of the environment from pollution. Sorption technologies are quite effective in wastewater treatment, but most sorbents are quite expensive, and their regeneration raises the question of recycling of spent solutions. The cheapness and availability of raw material base of biosorbents makes these technologies attractive for wastewater treatment. The research is aimed at investigation of the ways to effectively utilize the spent sorbents, which are obtained after water purification, in the production of building materials. The obtained results allow creating a complex low-waste technology of water demineralization and purification from heavy metal ions.
Rocznik
Strony
131--138
Opis fizyczny
Bibliogr. 22 poz., rys.
Twórcy
autor
  • Department of Ecology and Technology of Plant Polymers, Faculty of Chemical Engineering, Igor Sikorsky Kyiv Polytechnic Institute, Peremogy Avenu 37/4, 03056 Kyiv, Ukraine
  • Laboratory of Kinetics and Mechanisms of Chemical Transformations on the Surface of Solids, Department of Physico-Chemistry of Carbon Nanomaterials, O.O. Chuiko Institute of Surface Chemistry, National Academy of Sciences of Ukraine, General Naumov St. 17, 03164 Kyiv, Ukraine
autor
  • Department of Ecology and Technology of Plant Polymers, Faculty of Chemical Engineering, Igor Sikorsky Kyiv Polytechnic Institute, Peremogy Avenu 37/4, 03056 Kyiv, Ukraine
  • Laboratory of Kinetics and Mechanisms of Chemical Transformations on the Surface of Solids, Department of Physico-Chemistry of Carbon Nanomaterials, O.O. Chuiko Institute of Surface Chemistry, National Academy of Sciences of Ukraine, General Naumov St. 17, 03164 Kyiv, Ukraine
  • Department of inorganic substances and Ecology, Faculty of Inorganic Substances, Ukrainian State Chemical-Engineering University, Gagarin Ave. 8, 49005 Dnipro, Ukraine
  • Department of Ecology and Technology of Plant Polymers, Faculty of Chemical Engineering, Igor Sikorsky Kyiv Polytechnic Institute, Peremogy Avenu 37/4, 03056 Kyiv, Ukraine
autor
  • Department of Ecology and Technology of Plant Polymers, Faculty of Chemical Engineering, Igor Sikorsky Kyiv Polytechnic Institute, Peremogy Avenu 37/4, 03056 Kyiv, Ukraine
  • Department of Physical Chemistry, Faculty of Chemical Technology, National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”, Peremogy Avenu 37/4, 03056 Kyiv, Ukraine
  • Department of inorganic substances and Ecology, Faculty of Inorganic Substances, Ukrainian State Chemical-Engineering University, Gagarin Ave. 8, 49005 Dnipro, Ukraine
  • Department of Ecology and Technology of Plant Polymers, Faculty of Chemical Engineering, Igor Sikorsky Kyiv Polytechnic Institute, Peremogy Avenu 37/4, 03056 Kyiv, Ukraine
Bibliografia
  • 1. Duruibe J., Ogwuegbu M.O.C., Egwurugwu J.N. 2007. Heavy metal pollution and human biotoxic effects. International Journal of Physical Sciences, 2(5), 112118.
  • 2. Buzylo, V., Pavlychenko, A., Savelieva, T., Borysovska, O. (2018). Ecological aspects of managing the stressed-deformed state of the mountain massif during the development of multiple coal layers. Paper presented at the E3S Web of Conferences, 60.
  • 3. Campos, V. 2009. The sorption of toxic elements onto natural zeolite, synthetic goethite and modified powdered block carbon. Environmental Earth Sciences, 59(4), 737–744.
  • 4. Trus I., Radovenchyk I., Halysh V., Skiba M., Vasylenko I., Vorobyova V., Hlushko O., Sirenko L. 2019. Innovative Approach in Creation of Integrated Technology of Desalination of Mineralized Water. Journal of Ecological Engineering. 20(8), 107–113.
  • 5. Malovanyy M., Sakalova H., Vasylinycz T., Palamarchuk O., Semchuk J. 2019. Treatment of effluents from ions of heavy metals as display of environmentally responsible activity of modern businessman. Journal of Ecological Engineering, 20(4), 167–176.
  • 6. Radovenchik, V. M., Korostyatinets V. D., Ivanenko E. I. 2001. Study of efficiency of iron ions extraction from aqueous solutions by ferrite method. Khimiya i Tekhnologiya Vody, 23(2), 172–176.
  • 7. Mazurak, O., Solovodzinska, I., Mazurak, A., Gryncyhshyn, N. (2019). Reagent Removal of Heavy Metals from Waters of Coal Mines and Spoil Tips of the Lviv-Volyn Industrial Mine Region. Journal of Ecological Engineering. 20(8), 50–59.
  • 8. Gomelya M.D., Trus I.M., Radovenchyk I.V. 2014. Influence of stabilizing water treatment on weak acid cation exchange resin in acidic form on quality of mine water nanofiltration desalination. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 5, 100–105.
  • 9. Ambiado K., Bustos C., Schwarz A., Bórquez R. 2017. Membrane technology applied to acid mine drainage from copper mining. Water Science and Technology, 75(3), 705–715.
  • 10. Gomelia, N., Trokhymenko, G., Hlushko, O., & Shabliy, T. (2018). Electroextraction of heavy metals from wastewater for the protection of natural water bodies from pollution. Eastern-European Journal of Enterprise Technologies, 1(10–91), 55–61.
  • 11. Ghosh, D., Solanki, H., Purkait, M. K. (2008). Removal of fe(II) from tap water by electrocoagulation technique. Journal of Hazardous Materials, 155(1–2), 135–143.
  • 12. Gomelya N., Ivanova V., Galimova V., Nosachova J., Shabliy T. 2017. Evaluation of cationite efficiency during extraction of heavy metal ions from diluted solutions. Eastern-European Journal of Enterprise Technologies, 5(6–89), 4–10.
  • 13. Dizge N., Keskinler B., Barlas H. 2009. Sorption of Ni (II) ions from aqueous solution by Lewatit cation-exchange resin. Journal of hazardous materials. 167(1), 915–926.
  • 14. Wu J., Zhang H., Pin-Jing H., YAO Q., Li-Ming S. 2010. Cr (VI) removal from aqueous solution by dried activated sludge biomass.Journal of hazardous materials. 176(1), 697–703.
  • 15. Skiba, M., Vorobyova, V., Pivovarov, A. O., Shakun, A., Gnatko, E., Trus, I. 2018. “Green” synthesis of nanoparticles of precious metals: Antimicrobial and catalytic properties. Eastern-European Journal of Enterprise Technologies, 5(6–95), 51–58.
  • 16. Galysh V., Sevastyanova O., Kartel М., Lindström M., Gornikov Yu. 2017. Impact of ferrocyanide salts on the thermo-oxidative degradation of lignocellulosic sorbents, Journal of Thermal Analysis and Calorimetry, 128(2), 1019–1025.
  • 17. Kartel M., Galysh V., 2017. New composite sorbents for caesium and strontium ions sorption. Chemistry Journal of Moldova, 12(1), 37–44.
  • 18. Pohrebennyk V., Shybanova A., Kłos-Witkowska A., Ripak N., Borowik B. 2018. Purification of drinking water from iron with the help of activated zeolites the purpose of this paper is the establishment of optimal conditions for the processes of thermal and chemical activation natural zeolite clinoptilolite of sokyrnytsky deposit (Ukraine) and the possibilities of its use for the purification of drinking water from iron. Paper presented at the International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM, 18(5.2), 755–762.
  • 19. Trus I.M., Fleisher H.Y., Tokarchuk V.V., Gomelya M.D., Vorobyova V.I. 2017. Utilization of the residues obtained during the process of purification of mineral mine water as a component of binding materials. Voprosy Khimii i Khimicheskoi Tekhnologii, (6), 104–109.
  • 20. Halysh V., Sevastyanova O., Riazanova A. V., Pasalskiy B., Budnyak T., Lindström M. E., Кartel M. 2018. Walnut shells as a potential low-cost lignocellulosic sorbent for dyes and metal ions. Cellulose, 25(8), 4729–4742.
  • 21. Fleysher A., Tokarchuk V., Sviderskiy V. 2015. Use of the admixture consisting of products of processed polymer fraction of municipal solid waste as a cement hardening accelerator. Eastern-European Journal of Enterprise Technologies, 4(6), 23–29.
  • 22. Halysh V., Sevastyanova O., de Carvalho D.M., Riazanova A.V., Lindström M.E., Gomelya M. 2019. Effect of oxidative treatment on composition and properties of sorbents prepared from sugarcane residues. Industrial Crops and Products. 139, 111566.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1b7fafaa-9b0d-4aed-9e5c-9eb5a84a8df4
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