The study of properties of soda production wastes as anti-icing reagents

Simple item page
dc.citation.epage168
dc.citation.issue4
dc.citation.spage163
dc.contributor.affiliationVolodymyr Dahl East Ukrainian National University
dc.contributor.authorSuvorin, Oleksandr
dc.contributor.authorKravchenko, Inna
dc.contributor.authorOzheredova, Maryna
dc.contributor.authorZubtsov, Yevhen
dc.contributor.authorPíštěk, Václav
dc.coverage.placenameЛьвів
dc.coverage.placenameLviv
dc.date.accessioned2023-05-09T08:48:39Z
dc.date.available2023-05-09T08:48:39Z
dc.date.created2022-03-01
dc.date.issued2022-03-01
dc.description.abstractThe article considers the possibility of reducing the man-made load on surface and ground waters in Lysychansk- Severodonetsk industrial agglomeration caused by numerous sludge collectors and tailings storage facilities of various industries formed many decades ago. The paper provides information on the location and technical condition of the sludge collectors of the liquidated “LYSSODA” manufacture (Luhansk oblast), the amount of waste currently stored in them as well as the impact of these wastes on the quality of groundwater in the area where the sludge collectors are located. The work shows one of several possible options for using such wastes as a valuable secondary mineral raw material for obtaining a marketable product. The averaged data on the chemical composition of the solid phase of sludge and indicators of the liquid phase composition are given. According to the results of the analysis of scientific and technical information, it has been found that such wastes can ultimately be used for the production of anti-icing reagents. The obtained results of research on the dependence of the freezing point of working solutions on the concentration of salts, including the added corrosion inhibitors (triethanolamine, hexamethylenetetramine), indicate the feasibility of using soda ash production waste to obtain effective liquid anti-icing reagents without a mechanical component, while the optimal amount of added corrosion inhibitors is 0.5 % wt. Such reagents can be used both undiluted at temperatures up to minus 20 °C and strengthened to 15–20 % wt. by calcium chloride at temperatures up to minus 40 °C with consumption on highways at the level of about 100 g/m2 of the treated surface.
dc.format.extent163-168
dc.format.pages6
dc.identifier.citationThe study of properties of soda production wastes as anti-icing reagents / Oleksandr Suvorin, Inna Kravchenko, Maryna Ozheredova, Yevhen Zubtsov, Václav Píštěk // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2022. — Vol 7. — No 4. — P. 163–168.
dc.identifier.citationenThe study of properties of soda production wastes as anti-icing reagents / Oleksandr Suvorin, Inna Kravchenko, Maryna Ozheredova, Yevhen Zubtsov, Václav Píštěk // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2022. — Vol 7. — No 4. — P. 163–168.
dc.identifier.doidoi.org/10.23939/ep2022.04.163
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/59045
dc.language.isoen
dc.publisherВидавництво Львівської політехніки
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofEnvironmental Problems, 4 (7), 2022
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dc.relation.referencesenPanasenko, V. A. (2010). Proizvodstvennye otkhody sodovykh
dc.relation.referencesenpredpriyatiy i vozmozhnye puti ikh utilizatsii. Bulletin of the
dc.relation.referencesenNational Technical University "Kharkiv Polytechnic
dc.relation.referencesenInstitute", 11, 79–84. Retrieved from
dc.relation.referencesenhttp://repository.kpi.kharkov.ua/handle/KhPI-Press/19193
dc.relation.referencesenNikolaieva, I., Lenko, G., Avierin, D., & Lobodzynskyi, O.
dc.relation.referencesen(2020). Doslidzhennja potochnogho stanu khvostoskhovyshh
dc.relation.referencesenDonbasu shhodo jikhnjogho mozhlyvogho avarijnogho
dc.relation.referencesenvplyvu na vodni ob'jekty. Kyiv: Orghanizacija z bezpeky ta
dc.relation.referencesenspivrobitnyctva v Jevropi ta Derzhavne aghenstvo vodnykh
dc.relation.referencesenresursiv Ukrajiny. Retrieved from https://www.osce.org/files/f/documents/9/9/486259.pdf
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dc.relation.referencesen(2020). Pryncyp diji i asortyment protyozhelednykh
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dc.relation.referencesenspravochnik fiziko-khimicheskikh velichin. Leningrad:
dc.relation.referencesenKhimiya. URL: https://ru.djvu.online/file/nD1tBF6uBn9N8
dc.relation.referencesenSiedov, A. V. (2018). Analiz dosvidu vykorystannja
dc.relation.referencesenkompleksnykh protyozhelednykh materialiv dlja borotjby iz
dc.relation.referencesenzymovoju slyzjkistju na avtomobiljnykh doroghakh.
dc.relation.referencesenMaterialy Vseukrajinsjkoji naukovo-praktychnoji Internetkonferenciji
dc.relation.referencesen"Budivnyctvo ta ekspluatacija ob'jektiv
dc.relation.referencesentransportnoji infrastruktury", Kharkiv, 113–118.
dc.relation.referencesenSiedov, A. V., & Fomenko, O. A. (2019). Vplyv khlorystykh
dc.relation.referencesenprotyozhelednykh materialiv na bezpeku dorozhnjogho
dc.relation.referencesenrukhu v zymovyj period. Bulletin of Kharkiv National
dc.relation.referencesenAutomobile and Highway University, 86(2), 131–134. doi:
dc.relation.referencesenhttps://doi.org/10.30977/BUL.2219-5548.2019.86.2.130
dc.relation.referencesenSimonova, S. (Ed.). (2004). Novyy spravochnik khimika i
dc.relation.referencesentekhnologa. T. 4: Khimicheskoe ravnovesie. Svoystva
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dc.relation.referencesenRetrieved from http://chemistry-chemists.com/chemister/Spravochniki/spravochniki.htm
dc.relation.referencesenState Scientific Research and Design Institute of Basic
dc.relation.referencesenChemistry "NIOCHIM". (2020). Novyj protyozhelednyj
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dc.relation.referencesenhttps://library.tou.edu.kz/fulltext/buuk/b661.pdf
dc.relation.referencesenSuvorin, O. V, Ozheredova, M. A., Zubtsov, Ye. I., &
dc.relation.referencesenShorokhov, M. M. (2020). Vidkhody vyrobnyctva
dc.relation.referencesenkaljcynovanoji sody jak perspektyvna vtorynna syrovyna.
dc.relation.referencesenTekhnologhija-2020: XXIII materialy mizhnarodnoji naukovotekhnichnoji
dc.relation.referencesenkonferenciji, 24–25 kvitnja 2020,
dc.relation.referencesenSeverodonetsk, 11–13. Retrieved from http://filelibsnu.at.ua/conference/Technology_2020.pdf
dc.relation.referencesenTytarenko, A. O., Yarovyi, Ye. V., Ozheredova, M. A., &
dc.relation.referencesenZubtsov, Ye. I. (2020). Analiz metodiv utylizaciji shlamiv
dc.relation.referencesensodovogho vyrobnyctva. Tekhnologhija-2020: XXIII materialy
dc.relation.referencesenmizhnarodnoji naukovo-tekhnichnoji konferenciji, 24–25 kvitnja 2020, Severodonetsk, 88–89. Retrieved from
dc.relation.referencesenhttp://filelibsnu.at.ua/conference/Technology_2020.pdf
dc.relation.referencesenDerzhavne aghentstvo avtomobiljnykh dorigh Ukrajiny
dc.relation.referencesenUkravtodor. (2011). Zastosuvannja inghibitoru koroziji
dc.relation.referencesenv khlorydnykh protyozhelednykh materialakh: TTR 218-00018112/31911658-408:2011. Retrieved from
dc.relation.referencesenhttps://ukravtodor.gov.ua/
dc.relation.referencesenZakrevskyi, A. I., Popelysh, I. I., Koritchuk, S. O., &
dc.relation.referencesenKolosivskyi, M. L. (2016). Aerodromni antyozheledni
dc.relation.referencesenkhimreaghenty. Automobile Roads and Road Construction, 96, 19–32. Retrieved from https://dspace.nau.edu.ua/handle/NAU/54533?mode=full
dc.relation.referencesenZhandullaeva, M. S, Iskenderov, A. M., & Atakuziev, T. A.
dc.relation.referencesen(2011). Ispolzovanie otkhodov sodovogo proizvodstva v
dc.relation.referencesentsementnoy promyshlennosti v kachestve mineralizatora.
dc.relation.referencesenProduction of building materials and products using
dc.relation.referencesenindustrial waste: Proceedings Scientific publication, 7, 252-257.
dc.relation.referencesenZubtsov, Ye. I., Mokhonko, V. I., Ozheredova, M. A., &
dc.relation.referencesenSuvorin, O. V. (2020). Suchasnyj stan ta shljakhy rozrobky
dc.relation.referencesentekhnoghennykh rodovyshh Sjevjerodonecjko-Lysychansjko-
dc.relation.referencesenRubizhansjkoji aghlomeraciji na prykladi nakopychuvachiv
dc.relation.referencesenvidkhodiv sodovogho vyrobnyctva. Suchasni tekhnologhiji
dc.relation.referencesenv nauci ta osviti: materialy III Mizhnarodnoji naukovopraktychnoji
dc.relation.referencesenkonferenciji, 27–28 ljutogho 2020,
dc.relation.referencesenSeverodonetsk, 128–130. Retrieved from http://filelibsnu.at.ua/conference/2019-2020/suchasni_tehnologii_2-DOI-2-.pdf
dc.relation.urihttp://194.44.152.155/elib/local/r158.pdf
dc.relation.urihttp://booksshare.net/books/chem/lureuu/1984/files/analhimpromstokvod1984.pdf
dc.relation.urihttps://cyberleninka.ru/article/n/otsenka-vliyaniyatehnogennyh-faktorov-na-aktivizatsiyu-melo-mergelnogokarstogeneza
dc.relation.urihttp://filelibsnu.at.ua/conference/2019-2020/suchasni_tehnologii_2-DOI-2-.pdf
dc.relation.urihttps://patents.google.com/patent/RU2167179C1/ru?oq=2167179
dc.relation.urihttp://repository.kpi.kharkov.ua/handle/KhPI-Press/19193
dc.relation.urihttps://www.osce.org/files/f/documents/9/9/486259.pdf
dc.relation.urihttps://www.systopt.com.ua/article-pryncyp-diyi-i-asortyment-protyozhelednyh-reagentiv
dc.relation.urihttps://patents.google.com/patent/RU2173329C2/ru?oq=2173329
dc.relation.urihttps://ru.djvu.online/file/nD1tBF6uBn9N8
dc.relation.urihttps://doi.org/10.30977/BUL.2219-5548.2019.86.2.130
dc.relation.urihttp://chemistry-chemists.com/chemister/Spravochniki/spravochniki.htm
dc.relation.urihttp://niochim.kharkov.ua/wpcontent/uploads/2020/10/New-anti-icing-material_ua.pdf
dc.relation.urihttps://library.tou.edu.kz/fulltext/buuk/b661.pdf
dc.relation.urihttp://filelibsnu.at.ua/conference/Technology_2020.pdf
dc.relation.urihttps://ukravtodor.gov.ua/
dc.relation.urihttps://dspace.nau.edu.ua/handle/NAU/54533?mode=full
dc.rights.holder© Національний університет “Львівська політехніка”, 2022
dc.rights.holder© Suvorin O., Kravchenko I., Ozheredova M., Zubtsov Ye., Píštěk V., 2022
dc.subjectsoda production
dc.subjectwastes
dc.subjectcomposition
dc.subjectfreezing point
dc.subjectanti-icing reagents
dc.titleThe study of properties of soda production wastes as anti-icing reagents
dc.typeArticle

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Environmental Problems. – 2022. – Vol. 7, No. 4