Apparatus-technological scheme of tin cans scrap recycling with obtaining technical products

Simple item page
dc.citation.epage39
dc.citation.issue6
dc.citation.spage33
dc.contributor.affiliationPoltava State Agrarian Academy
dc.contributor.affiliationScientific-Research Institute of Mineral Fertilizers and Pigments of Sumy State University
dc.contributor.authorDmitrikov, Valerii
dc.contributor.authorVakal, Serhii
dc.contributor.authorVakal, Viktoriia
dc.contributor.authorPliatsuk, Leonid
dc.coverage.placenameЛьвів
dc.coverage.placenameLviv
dc.date.accessioned2023-04-25T06:44:51Z
dc.date.available2023-04-25T06:44:51Z
dc.date.created2021-03-03
dc.date.issued2021-03-03
dc.description.abstractThe article is devoted to the study of reducing the technogenic load on the environment due to the integrated processing of household metal scrap. A waste-free, resource saving, and environmentally safe method is proposed for extracting technical products from tin cans scrap – iron (III) oxide, tin (II) complex, suitable for further use, a mixture of ammonium and sodium nitrates as fertilizer for agriculture. As a result of theoretical and experimental studies, the direction of cans scrap recycling was selected with an assessment of the parameters and factors affecting the reagent process of scrap disposal. To verify the proposed method for can scrap processing in experimental studies, the reagent method and physical modeling were used together. The processes of the reagent can scrap recycling were studied in a laboratory installation. The results of studies on the reagent can scrap processing with the individual component allocation in the form of their derivatives are presented. A block diagram and a hardware-technological scheme for scrap processing with the receipt of technical products have been developed. The possibility of processing other metal-containing wastes according to the proposed scheme is shown.
dc.format.extent33-39
dc.format.pages7
dc.identifier.citationApparatus-technological scheme of tin cans scrap recycling with obtaining technical products / Valerii Dmitrikov, Serhii Vakal, Viktoriia Vakal, Leonid Pliatsuk // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2021. — Vol 1. — No 6. — P. 33–39.
dc.identifier.citationenApparatus-technological scheme of tin cans scrap recycling with obtaining technical products / Valerii Dmitrikov, Serhii Vakal, Viktoriia Vakal, Leonid Pliatsuk // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2021. — Vol 1. — No 6. — P. 33–39.
dc.identifier.doidoi.org/10.23939/ep2021.01.033
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/58003
dc.language.isoen
dc.publisherВидавництво Львівської політехніки
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofEnvironmental Problems, 6 (1), 2021
dc.relation.referencesAbdelrahman, N. A. (2015). Tin-Plate Corrosion in Canned
dc.relation.referencesFoods. Journal of Global Biosciences, 4 (7), 2966–2971.
dc.relation.referencesAfanasyeva, T. A. (2008). Feasibility study for the development
dc.relation.referencesof an integrated production reliability management system.
dc.relation.referencesModern high technology, (3), 49–54. [іn Russian]
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dc.relation.referencesengineering of production, use and recovery of self-chilling
dc.relation.referencesbeverage cans. Journal of Cleaner Production, 142 (4), 1562–1570. doi: https://doi.org/10.1016/j.jclepro.2016.11.148
dc.relation.referencesBezfamilnaya, E. V. (2012). Increasing environmental and
dc.relation.referenceseconomic efficiency while improving production
dc.relation.referencestechnologies. Bulletin of SRSTU (NPI), (5), 83–89. [іn
dc.relation.referencesRussian]
dc.relation.referencesCapuzzi, S., & Timelli, G. (2018). Preparation and Melting of
dc.relation.referencesScrap in Aluminum Recycling: A Review. Metals, 8, 249.
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dc.relation.referencesAmbivalence and conservation behavior: An exploratory
dc.relation.referencesstudy on the recycling of metal cans. Journal of
dc.relation.referencesEnvironmental Psychology, (29), 24–33. doi:https://doi.org/10.1016/j.jenvp.2008.11.003
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dc.relation.referencesand Recycling, (102), 9–19. doi:https://doi.org/10.1016/j.resconrec.20-15.06.004
dc.relation.referencesDeena, H., Khadeeja, P., Leena, P. K. Fahmi, Lekshmi, J. S., &
dc.relation.referencesSreekumar, N. (2019). Production of Industrial Coagulant
dc.relation.references(Poly Aluminium Chloride) From Used Beverage Cans.
dc.relation.referencesJournal of Scientific & Industrial Research, 78 (07), 448–453.
dc.relation.referencesDelo, A., Tabbaa, D., & Arwana, A. (2018). Study of
dc.relation.referencesManagement for Household Waste. International Journal of
dc.relation.referencesRecent Scientific Research, 9, 11 (E), 29781–29783. doi:
dc.relation.referenceshttp://dx.doi.org/10.24327/ijrsr.2018.0911.2913
dc.relation.referencesFinnveden, G., Hauschild, M. Z., Ekvall, T., Guinée, J.,
dc.relation.referencesHeijungs, R., Hellweg, S., Koehler, A., Pennington, D.,
dc.relation.references& Suh, S. (2009). Recent developments in Life Cycle
dc.relation.referencesAssessment. Journal of Environmental Management,
dc.relation.references(91), 1–21. doi: https://doi.org/10.1016/j.jenvman.2009.06.06.018
dc.relation.referencesGiurco, D., Litttleboy, A., Boyle, T., Fyfe, J., & White, S.
dc.relation.references(2014). Circular Economy: Questions for Responsible
dc.relation.referencesMinerals, Additive Manufacturing and Recycling of
dc.relation.referencesMetals. Resources, (3), 432–453. doi:https://doi.org/10.3390/resources3020432
dc.relation.referencesKhaliq, A., Rhamdhan, M. A., Brooks, G., & Masood, S.
dc.relation.references(2014). Metal extraction processes for electronic waste
dc.relation.referencesand existing industrial routes: a review and Australian
dc.relation.referencesperspective. Resources, (3), 152–179. doi:http://doi.org/10.3390/resources3010152
dc.relation.referencesKuntyi, O. I., Kurylets, O. G., Bilan, O. I., & Zatyrach, R. I.
dc.relation.references(2006). Non-electrolytic removal of thin tin coatings from
dc.relation.referenceswhite tin waste in sodium hydroxide solutions.
dc.relation.referencesEcotechnologies and Resource Saving, (2), 49–51. [іn
dc.relation.referencesUkrainian]
dc.relation.referencesKurylets, O. G., Znak, Z. O., & Savchuk, L. V. (2013). Leaching
dc.relation.referencesof tin from the waste of white tin in the drum apparatus.
dc.relation.referencesEnergy Technologies and Resource Saving, (6), 43–49. [іn
dc.relation.referencesUkrainian]
dc.relation.referencesLopez-Delgado, A., Lobo-Recio, M., Pena, C., Lopez, V., &
dc.relation.referencesLopez, F. (2005). Characteristics and thermal detinning
dc.relation.referencesof ferrous scrap from Spanish MSW compost plants.
dc.relation.referencesResources, Conservation and Recycling, 44, 167–183. doi:
dc.relation.referenceshttps://doi.org/10.1016/j.resconrec.2004.11.003
dc.relation.referencesMarkus, A. Reuter, Ilkka, & V. Kojo. (2012). Challenges of
dc.relation.referencesmetals recycling. Materia, (2), 50–57.
dc.relation.referencesNigbur, D., Lyons, E., & Uzzell, D. (2010). Attitudes, norms,
dc.relation.referencesidentity and environmental behavior: Using an expanded
dc.relation.referencestheory of planned behavior to predict participation in a
dc.relation.referenceskerbside recycling program. British Journal of Social
dc.relation.referencesPsychology, 49, 259–284. doi:https://doi.org/10.1348/014466609X449395
dc.relation.referencesOlshanskaya, L. N., Bulkina, L. A., Lazareva, E. N., Egorov, V.
dc.relation.referencesV., & Shaykhiyev, I. G. (2014). Technological aspects of
dc.relation.referencesthe recovery of toxic metals from galvanic waste for
dc.relation.referencessecondary use. Bulletin of Kazan Technological University
dc.relation.references(KTU), 17(7), 195–199. [іn Russian]
dc.relation.referencesPande, R. M., Kandharkar, S. U., & Patthe, R. B. (2015).
dc.relation.referencesComputational Fluid Dynamics (CFD) of Centrifugal Pump
dc.relation.referencesto Study. International Journal on Theoretical and Applied
dc.relation.referencesResearch in Mechanical Engineering, 2 (4), 59–62.
dc.relation.referencesProtsenko, A. V., Dmitrikov, V. P., Gunko, S. A., Egunko, V. V.
dc.relation.references(2011). On compliance with environmental standards in the
dc.relation.referencesdisposal of sludge from spent manganese-zinc galvanic
dc.relation.referencescells. Proceedings of the National Mining University, 36(2), 218–223. [іn Ukrainian]
dc.relation.referencesProtsenko, A. V., Gulyayev, V. M., Anatskiy, A. S., &
dc.relation.referencesDmitrikov, V. P. (2017). Reagent hydrochemical method
dc.relation.referencesfor the extraction of tin from scrap tin cans. Proceedings of
dc.relation.referencesDDTU (Chemical technology. Biotechnology), 2(31), 113–117. [іn Ukrainian]
dc.relation.referencesSavov, L., Volkova, E., & Janke, D. (2003). Cooper and
dc.relation.referencesTin in Steel Scrap Recycling. RMZ – Materials and
dc.relation.referencesGeoenvironment, 50 (3), 627–640.
dc.relation.referencesSelivanova, N. V., Trifonova, T. A., & Shirkin, L. A. (2011).
dc.relation.referencesUtilization of galvanic production waste. Bulletin of the
dc.relation.referencesSamara Scientific Center of the Russian Academy of
dc.relation.referencesSciences, 1 (8), 2085–2088. [іn Russian]
dc.relation.referencesShakila, B. (2013). Recycling of Aluminium from Aluminium
dc.relation.referencesCans. J. Chem. Soc. Pak., 35, 6, 1490–1493.
dc.relation.referencesTailoka, F., Kumar, R. V., & Fray, D. J. (2003). Mechanism of
dc.relation.referenceschlorination of tin in air and its application to steel can
dc.relation.referencesrecycling. Ironmaking and Steelmaking, 30, 5, 391–395.
dc.relation.referencesdoi: https://doi.org/10.1179/030192303225004033
dc.relation.referencesTarakanov, V. A. (2014). Recycling industry: supply and
dc.relation.referencesdemand. Municipal solid waste, (1), 38–42. [іn Russian]
dc.relation.referencesTarasova, G. I. (2012). A rational method for producing a
dc.relation.referencespigment filler from metal-containing industrial waste.
dc.relation.referencesBulletin of BSTU named after V. G. Shukhov, (2), 128–132.
dc.relation.references[іn Russian]
dc.relation.referencesUgulu, I.. (2015). A quantitative investigation on recycling
dc.relation.referencesattitudes of gifted/talented students. Biotechnology &
dc.relation.referencesBiotechnological Equipment, 29:sup1, S20-S26. doi:
dc.relation.referenceshttps://doi.org/10.1080/13102818.2015.1047168
dc.relation.referencesWhite, K. M., & Hyde, M. K. (2012). The Role of
dc.relation.referencesSelf-Perceptions in the Prediction of Household
dc.relation.referencesRecycling Behavior in Australia. Environment and
dc.relation.referencesBehavior, 44 (6), 785–799. doi:https://doi.org/10.1177/0013916511408069
dc.relation.referencesYavorskyi, V. T., Zozulia, G. I., & Buklіv, R. L. (2014).
dc.relation.referencesUtilization of valuable components from waste small
dc.relation.referenceselectric sources. Bulletin of National University “Lviv
dc.relation.referencesPolytechnic”: Chemistry, technology of substances and
dc.relation.referencestheir application, 787, 117–121. [іn Ukrainian]
dc.relation.referencesenAbdelrahman, N. A. (2015). Tin-Plate Corrosion in Canned
dc.relation.referencesenFoods. Journal of Global Biosciences, 4 (7), 2966–2971.
dc.relation.referencesenAfanasyeva, T. A. (2008). Feasibility study for the development
dc.relation.referencesenof an integrated production reliability management system.
dc.relation.referencesenModern high technology, (3), 49–54. [in Russian]
dc.relation.referencesenArena, N., Sinclair, P., Lee, J., & Clift, R. (2016). Life cycle
dc.relation.referencesenengineering of production, use and recovery of self-chilling
dc.relation.referencesenbeverage cans. Journal of Cleaner Production, 142 (4), 1562–1570. doi: https://doi.org/10.1016/j.jclepro.2016.11.148
dc.relation.referencesenBezfamilnaya, E. V. (2012). Increasing environmental and
dc.relation.referenceseneconomic efficiency while improving production
dc.relation.referencesentechnologies. Bulletin of SRSTU (NPI), (5), 83–89. [in
dc.relation.referencesenRussian]
dc.relation.referencesenCapuzzi, S., & Timelli, G. (2018). Preparation and Melting of
dc.relation.referencesenScrap in Aluminum Recycling: A Review. Metals, 8, 249.
dc.relation.referencesendoi: https://doi.org/10.3390/met8040249
dc.relation.referencesenCastro, P., Garrido, M., Reis, E., & Menezes, J. (2009).
dc.relation.referencesenAmbivalence and conservation behavior: An exploratory
dc.relation.referencesenstudy on the recycling of metal cans. Journal of
dc.relation.referencesenEnvironmental Psychology, (29), 24–33. doi:https://doi.org/10.1016/j.jenvp.2008.11.003
dc.relation.referencesenChupakhin, V. M., & Leonov, I. T. (1974). Production of tin
dc.relation.referencesencan containers. Moscow: Food industry. [in Russian]
dc.relation.referencesenDai, Y., Gordon, M., Ye, J., Zu, D., Lin, Z., Robinson, N.,
dc.relation.referencesenWoodard, R., & Harder, M. (2015). Why door-stepping can
dc.relation.referencesenincrease household waste recycling. Resources, Conservation,
dc.relation.referencesenand Recycling, (102), 9–19. doi:https://doi.org/10.1016/j.resconrec.20-15.06.004
dc.relation.referencesenDeena, H., Khadeeja, P., Leena, P. K. Fahmi, Lekshmi, J. S., &
dc.relation.referencesenSreekumar, N. (2019). Production of Industrial Coagulant
dc.relation.referencesen(Poly Aluminium Chloride) From Used Beverage Cans.
dc.relation.referencesenJournal of Scientific & Industrial Research, 78 (07), 448–453.
dc.relation.referencesenDelo, A., Tabbaa, D., & Arwana, A. (2018). Study of
dc.relation.referencesenManagement for Household Waste. International Journal of
dc.relation.referencesenRecent Scientific Research, 9, 11 (E), 29781–29783. doi:
dc.relation.referencesenhttp://dx.doi.org/10.24327/ijrsr.2018.0911.2913
dc.relation.referencesenFinnveden, G., Hauschild, M. Z., Ekvall, T., Guinée, J.,
dc.relation.referencesenHeijungs, R., Hellweg, S., Koehler, A., Pennington, D.,
dc.relation.referencesen& Suh, S. (2009). Recent developments in Life Cycle
dc.relation.referencesenAssessment. Journal of Environmental Management,
dc.relation.referencesen(91), 1–21. doi: https://doi.org/10.1016/j.jenvman.2009.06.06.018
dc.relation.referencesenGiurco, D., Litttleboy, A., Boyle, T., Fyfe, J., & White, S.
dc.relation.referencesen(2014). Circular Economy: Questions for Responsible
dc.relation.referencesenMinerals, Additive Manufacturing and Recycling of
dc.relation.referencesenMetals. Resources, (3), 432–453. doi:https://doi.org/10.3390/resources3020432
dc.relation.referencesenKhaliq, A., Rhamdhan, M. A., Brooks, G., & Masood, S.
dc.relation.referencesen(2014). Metal extraction processes for electronic waste
dc.relation.referencesenand existing industrial routes: a review and Australian
dc.relation.referencesenperspective. Resources, (3), 152–179. doi:http://doi.org/10.3390/resources3010152
dc.relation.referencesenKuntyi, O. I., Kurylets, O. G., Bilan, O. I., & Zatyrach, R. I.
dc.relation.referencesen(2006). Non-electrolytic removal of thin tin coatings from
dc.relation.referencesenwhite tin waste in sodium hydroxide solutions.
dc.relation.referencesenEcotechnologies and Resource Saving, (2), 49–51. [in
dc.relation.referencesenUkrainian]
dc.relation.referencesenKurylets, O. G., Znak, Z. O., & Savchuk, L. V. (2013). Leaching
dc.relation.referencesenof tin from the waste of white tin in the drum apparatus.
dc.relation.referencesenEnergy Technologies and Resource Saving, (6), 43–49. [in
dc.relation.referencesenUkrainian]
dc.relation.referencesenLopez-Delgado, A., Lobo-Recio, M., Pena, C., Lopez, V., &
dc.relation.referencesenLopez, F. (2005). Characteristics and thermal detinning
dc.relation.referencesenof ferrous scrap from Spanish MSW compost plants.
dc.relation.referencesenResources, Conservation and Recycling, 44, 167–183. doi:
dc.relation.referencesenhttps://doi.org/10.1016/j.resconrec.2004.11.003
dc.relation.referencesenMarkus, A. Reuter, Ilkka, & V. Kojo. (2012). Challenges of
dc.relation.referencesenmetals recycling. Materia, (2), 50–57.
dc.relation.referencesenNigbur, D., Lyons, E., & Uzzell, D. (2010). Attitudes, norms,
dc.relation.referencesenidentity and environmental behavior: Using an expanded
dc.relation.referencesentheory of planned behavior to predict participation in a
dc.relation.referencesenkerbside recycling program. British Journal of Social
dc.relation.referencesenPsychology, 49, 259–284. doi:https://doi.org/10.1348/014466609X449395
dc.relation.referencesenOlshanskaya, L. N., Bulkina, L. A., Lazareva, E. N., Egorov, V.
dc.relation.referencesenV., & Shaykhiyev, I. G. (2014). Technological aspects of
dc.relation.referencesenthe recovery of toxic metals from galvanic waste for
dc.relation.referencesensecondary use. Bulletin of Kazan Technological University
dc.relation.referencesen(KTU), 17(7), 195–199. [in Russian]
dc.relation.referencesenPande, R. M., Kandharkar, S. U., & Patthe, R. B. (2015).
dc.relation.referencesenComputational Fluid Dynamics (CFD) of Centrifugal Pump
dc.relation.referencesento Study. International Journal on Theoretical and Applied
dc.relation.referencesenResearch in Mechanical Engineering, 2 (4), 59–62.
dc.relation.referencesenProtsenko, A. V., Dmitrikov, V. P., Gunko, S. A., Egunko, V. V.
dc.relation.referencesen(2011). On compliance with environmental standards in the
dc.relation.referencesendisposal of sludge from spent manganese-zinc galvanic
dc.relation.referencesencells. Proceedings of the National Mining University, 36(2), 218–223. [in Ukrainian]
dc.relation.referencesenProtsenko, A. V., Gulyayev, V. M., Anatskiy, A. S., &
dc.relation.referencesenDmitrikov, V. P. (2017). Reagent hydrochemical method
dc.relation.referencesenfor the extraction of tin from scrap tin cans. Proceedings of
dc.relation.referencesenDDTU (Chemical technology. Biotechnology), 2(31), 113–117. [in Ukrainian]
dc.relation.referencesenSavov, L., Volkova, E., & Janke, D. (2003). Cooper and
dc.relation.referencesenTin in Steel Scrap Recycling. RMZ – Materials and
dc.relation.referencesenGeoenvironment, 50 (3), 627–640.
dc.relation.referencesenSelivanova, N. V., Trifonova, T. A., & Shirkin, L. A. (2011).
dc.relation.referencesenUtilization of galvanic production waste. Bulletin of the
dc.relation.referencesenSamara Scientific Center of the Russian Academy of
dc.relation.referencesenSciences, 1 (8), 2085–2088. [in Russian]
dc.relation.referencesenShakila, B. (2013). Recycling of Aluminium from Aluminium
dc.relation.referencesenCans. J. Chem. Soc. Pak., 35, 6, 1490–1493.
dc.relation.referencesenTailoka, F., Kumar, R. V., & Fray, D. J. (2003). Mechanism of
dc.relation.referencesenchlorination of tin in air and its application to steel can
dc.relation.referencesenrecycling. Ironmaking and Steelmaking, 30, 5, 391–395.
dc.relation.referencesendoi: https://doi.org/10.1179/030192303225004033
dc.relation.referencesenTarakanov, V. A. (2014). Recycling industry: supply and
dc.relation.referencesendemand. Municipal solid waste, (1), 38–42. [in Russian]
dc.relation.referencesenTarasova, G. I. (2012). A rational method for producing a
dc.relation.referencesenpigment filler from metal-containing industrial waste.
dc.relation.referencesenBulletin of BSTU named after V. G. Shukhov, (2), 128–132.
dc.relation.referencesen[in Russian]
dc.relation.referencesenUgulu, I.. (2015). A quantitative investigation on recycling
dc.relation.referencesenattitudes of gifted/talented students. Biotechnology &
dc.relation.referencesenBiotechnological Equipment, 29:sup1, S20-S26. doi:
dc.relation.referencesenhttps://doi.org/10.1080/13102818.2015.1047168
dc.relation.referencesenWhite, K. M., & Hyde, M. K. (2012). The Role of
dc.relation.referencesenSelf-Perceptions in the Prediction of Household
dc.relation.referencesenRecycling Behavior in Australia. Environment and
dc.relation.referencesenBehavior, 44 (6), 785–799. doi:https://doi.org/10.1177/0013916511408069
dc.relation.referencesenYavorskyi, V. T., Zozulia, G. I., & Bukliv, R. L. (2014).
dc.relation.referencesenUtilization of valuable components from waste small
dc.relation.referencesenelectric sources. Bulletin of National University "Lviv
dc.relation.referencesenPolytechnic": Chemistry, technology of substances and
dc.relation.referencesentheir application, 787, 117–121. [in Ukrainian]
dc.relation.urihttps://doi.org/10.1016/j.jclepro.2016.11.148
dc.relation.urihttps://doi.org/10.3390/met8040249
dc.relation.urihttps://doi.org/10.1016/j.jenvp.2008.11.003
dc.relation.urihttps://doi.org/10.1016/j.resconrec.20-15.06.004
dc.relation.urihttp://dx.doi.org/10.24327/ijrsr.2018.0911.2913
dc.relation.urihttps://doi.org/10.1016/j.jenvman.2009.06.06.018
dc.relation.urihttps://doi.org/10.3390/resources3020432
dc.relation.urihttp://doi.org/10.3390/resources3010152
dc.relation.urihttps://doi.org/10.1016/j.resconrec.2004.11.003
dc.relation.urihttps://doi.org/10.1348/014466609X449395
dc.relation.urihttps://doi.org/10.1179/030192303225004033
dc.relation.urihttps://doi.org/10.1080/13102818.2015.1047168
dc.relation.urihttps://doi.org/10.1177/0013916511408069
dc.rights.holder© Національний університет “Львівська політехніка”, 2021
dc.rights.holder© Dmitrikov V., Vakal S., Vakal V., Plyatsuk L., 2021
dc.subjectiron
dc.subjecttin
dc.subjectreagent method
dc.subjectprocessing scheme
dc.subjectutilization
dc.titleApparatus-technological scheme of tin cans scrap recycling with obtaining technical products
dc.typeArticle

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Environmental Problems. – 2021. – Vol. 6, No. 1