Elemental and mineral composition of ash-slag wastes of Slovianska thermal power plant

dc.citation.epage372
dc.citation.issue3
dc.citation.spage378
dc.citation.volume11
dc.contributor.affiliationKharkiv National Automobile and Highway University
dc.contributor.authorKhobotova, Elina
dc.contributor.authorIgnatenko, Marina
dc.contributor.authorLarin, Vasiliy
dc.contributor.authorKalmykova, Yulia
dc.contributor.authorTurenko, Anatoly
dc.coverage.placenameLviv
dc.date.accessioned2018-06-21T09:53:11Z
dc.date.available2018-06-21T09:53:11Z
dc.date.created2017-01-20
dc.date.issued2017-01-20
dc.description.abstractВизначено елементний, мінеральний і радіонуклідний склад золошлаків Слав’янської ТЕС (Україна). Фракції золошлаків відповідають першому класу радіаційної безпеки. Кількісний оксидний склад наступний: SiO2, Al2O3, Fe2O3, CaO і MgO. Гранулометричні фракції відходів можуть бути рекомендовані як компоненти легких бетонів.
dc.description.abstractElemental, mineral and radionuclide composition of the Slovianska thermal power plant (Ukraine) ash-slag has been determined. The ash-slag fractions refer to the first class of radiation safety. The quantitative oxide composition is the following: SiO2, Al2O3, Fe2O3, CaO and MgO. The granulometric fractions of wastes can be recommended as the components of light concretes.
dc.format.extent378-372
dc.format.pages-5
dc.identifier.citationElemental and mineral composition of ash-slag wastes of Slovianska thermal power plant / Elina Khobotova, Marina Ignatenko, Vasiliy Larin, Yulia Kalmykova, Anatoly Turenko // Chemistry & Chemical Technology. — Lviv : Lviv Politechnic Publishing House, 2017. — Vol 11. — No 3. — P. 378–372.
dc.identifier.citationenElemental and mineral composition of ash-slag wastes of Slovianska thermal power plant / Elina Khobotova, Marina Ignatenko, Vasiliy Larin, Yulia Kalmykova, Anatoly Turenko // Chemistry & Chemical Technology. — Lviv : Lviv Politechnic Publishing House, 2017. — Vol 11. — No 3. — P. 378–372.
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/42090
dc.language.isoen
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofChemistry & Chemical Technology, 3 (11), 2017
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dc.relation.references[3] Eguchi K: P. Jpn. Concrete Inst., 2011, 33, 761.
dc.relation.references[4] Khobotova E., Kalmykova Yu.: Zaschita Okruzhaushei Prirodnoi Sredy pri Utilizatsii Otvalnykh Domennykh Shlakov v Proizvodstve StroitelnykhMaterialov. XNADU, Kharkov 2014.
dc.relation.references[5] Wang H., Qi C., FarzamH., Turici J.: Concrete Int., 2006, 28, 47.
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dc.relation.references[7] Thomas M.: Optimizing the Use of Fly Ash in Concrete. Portland Cement Association, Publication IS 548, 2007.
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dc.relation.references[9] Naik T., Ramme B., Kraus R., Siddique R.: ACI Mat. J., 2003,100, 150.
dc.relation.references[10] Khobotova E., Ukhaniova M., Graivoronskaya I., Kalmykova Yu.: Radiatsionno-Khimicheskoe Obosnovanie Ispolzovaniya Tverdykh Promyshlennykh Othodov v Kachestve Technicheskikh Materialov. XNADU, Kharkov 2011.
dc.relation.references[11] Khobotova E., Larin V., Ignatenko M., Kalmykova Yu.: Radioecologicheskyi Monitoring Syrievykh Materialov Stroitelnoi Otrasli. XNADU, Kharkov 2016.
dc.relation.references[12] Ivanov I.: Legkie Betony s Primeneniem Zol Electrostanciy. Stroiizdat. Moskva 1986.
dc.relation.references[13] zakon.rada.gov.ua/laws/show/v4422400-87
dc.relation.references[14] JCPDS PDF-1 File. International Committee for Diffraction Data, release 1994. PA, USA
dc.relation.references[15] Sergeev A.: Ispolzovanie v Stroitelstve Othodov Energeticheskoi Promyshlennosti. Budivelnyk, Kyiv 1984.
dc.relation.referencesen[1] Lieuw Kie Song M.R., Work 2001: First International Conference of Employment Creation in Development, South Africa, Witwatersrand 2001, 11.
dc.relation.referencesen[2]Malhotra S., Tehri S., Indian J. Eng. Mat. Sci., 1995, 2, 80.
dc.relation.referencesen[3] Eguchi K: P. Jpn. Concrete Inst., 2011, 33, 761.
dc.relation.referencesen[4] Khobotova E., Kalmykova Yu., Zaschita Okruzhaushei Prirodnoi Sredy pri Utilizatsii Otvalnykh Domennykh Shlakov v Proizvodstve StroitelnykhMaterialov. XNADU, Kharkov 2014.
dc.relation.referencesen[5] Wang H., Qi C., FarzamH., Turici J., Concrete Int., 2006, 28, 47.
dc.relation.referencesen[6] Malhotra V., Mehta P., High-Performance, High-Volume Fly Ash Concrete. Supplementary Cementing Materials for Sustainable Development Inc., Ottawa 2005.
dc.relation.referencesen[7] Thomas M., Optimizing the Use of Fly Ash in Concrete. Portland Cement Association, Publication IS 548, 2007.
dc.relation.referencesen[8] Karthik H., Concrete InFocus, 2008, 60.
dc.relation.referencesen[9] Naik T., Ramme B., Kraus R., Siddique R., ACI Mat. J., 2003,100, 150.
dc.relation.referencesen[10] Khobotova E., Ukhaniova M., Graivoronskaya I., Kalmykova Yu., Radiatsionno-Khimicheskoe Obosnovanie Ispolzovaniya Tverdykh Promyshlennykh Othodov v Kachestve Technicheskikh Materialov. XNADU, Kharkov 2011.
dc.relation.referencesen[11] Khobotova E., Larin V., Ignatenko M., Kalmykova Yu., Radioecologicheskyi Monitoring Syrievykh Materialov Stroitelnoi Otrasli. XNADU, Kharkov 2016.
dc.relation.referencesen[12] Ivanov I., Legkie Betony s Primeneniem Zol Electrostanciy. Stroiizdat. Moskva 1986.
dc.relation.referencesen[13] zakon.rada.gov.ua/laws/show/v4422400-87
dc.relation.referencesen[14] JCPDS PDF-1 File. International Committee for Diffraction Data, release 1994. PA, USA
dc.relation.referencesen[15] Sergeev A., Ispolzovanie v Stroitelstve Othodov Energeticheskoi Promyshlennosti. Budivelnyk, Kyiv 1984.
dc.rights.holder© Національний університет „Львівська політехніка“, 2017
dc.rights.holder© Khobotova E., Ignatenko M., Larin V., Kalmykova Yu., Turenko A., 2017
dc.subjectпаливна зола
dc.subjectшлак
dc.subjectфракція
dc.subjectмінерал
dc.subjectрадіоактивність
dc.subjectfuel ash
dc.subjectslag
dc.subjectfraction
dc.subjectmineral
dc.subjectradioactivity
dc.titleElemental and mineral composition of ash-slag wastes of Slovianska thermal power plant
dc.title.alternativeЕлементний і мінеральний склад золошлакових відходів Слав‘янської ТЕС
dc.typeArticle

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