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Abstrakty
In this paper, the separation technology of components of waste pharmaceutical blisters and its adaptation to the industrial scale are described. It involved, among others, taking advantage of the phenomenon of difference in the density of the individual phases that were contained in the separation tank, i.e., the separating mixture, PVC plastics, and aluminium. As a result, the directions of movement of the separated blister components were opposite. All components of the separating mixture feature a similar surface tension (γ > 20 mN/m) which facilitates the penetration of the liquid between the blister component layers. After separation, the full-value products, i.e. polyvinyl chloride (PVC) and aluminium are obtained. The resulting products can be further processed and the entire technological process is a waste-free. PVC can be melted and processed into other products e.g. plastic components for the construction industry. Pure aluminium is a metal sought after and widely used in industry due to its low specific weight. An additional element supplementing the technology is the separation tank of our design in which the separation process of the blister components takes place. The advantage of the separation tank is that the separation process can be repeated many times with the same separating mixture until it is exhausted. Both separated blister components are directed to filtering followed by air drying without a mixing PVC plastic with aluminium.
Czasopismo
Rocznik
Tom
Strony
429--442
Opis fizyczny
Bibliogr. 22 poz., rys., tab., wykr.
Twórcy
autor
- Department of Inorganic and Analytical Chemistry, Faculty of Chemistry, University of Lodz, ul. Tamka 12, 91-403 Łódź, Poland
autor
- Department of Inorganic and Analytical Chemistry, Faculty of Chemistry, University of Lodz, ul. Tamka 12, 91-403 Łódź, Poland
autor
- Department of Inorganic and Analytical Chemistry, Faculty of Chemistry, University of Lodz, ul. Tamka 12, 91-403 Łódź, Poland
autor
- Department of Inorganic and Analytical Chemistry, Faculty of Chemistry, University of Lodz, ul. Tamka 12, 91-403 Łódź, Poland
Bibliografia
- [1] Ashby M, Shercliff H, Cebon D. Materials Engineering, Science, Processing and Design. Oxford UK: Elsevier Ltd.; 2010. ISBN: 9780750683913.
- [2] Swain E. Industry outlook: pharmaceutical packaging. Pharm Med Packag News. 1998;8:10-3. Available from: www.polycine.de/en/.
- [3] Lee BK, Ellenbecker MJ, Moure-Eraso R. Analyses of the recycling potential of medical plastic wastes. Waste Manage. 2002;22:461-70. DOI: 10.1016/S0956-053X(02)00006-5.
- [4] Pilchik R. Pharmaceutical blister packaging, part I. Pharm Technol. 2000;24:68-77. Available from: http://www.pharmanet.com.br/pdf/blister.pdf#page=7.
- [5] Allen D. Conducting a successful stability study for blister packaging. Pharm Med Packag News. 1999:24-30. Available from: https://www.packagingdigest.com/technologies/conducting-successfulstability-study-blister-packaging.
- [6] Van Dooren AA. PVC as pharmaceutical packaging material. A literature survey with special emphasis on plasticized PVC bags. Pharm Weekbl. 1991;13:109-18. DOI: 10.1007/BF01981526.
- [7] Pawlik R. PL Patent Application PL405808A1. Multilayer packaging foil. 28 October 2013. Bulletin of the Patent Office of the Republic of Poland 10/2015, p. 17 (11.05.2015). Available from: https://uprp.gov.pl/sites/default/files/bup/2015/10/bup10_2015.pdf.
- [8] Gente V, La Marca F, Lucci F, Massacci P. Electrical separation of plastics coming from special waste. Waste Manage. 2003;23:951-8. DOI: 10.1016/S0956-053X(03)00088-6.
- [9] Gente V, La Marca F, Lucci F, Massacci P, Pani E. Cryo-comminution of plastic waste. Waste Manage. 2004;24:663-72. DOI: 10.1016/j.wasman.2004.03.005.
- [10] Cui J, Zhang L. Metallurgical recovery of metals from electronic waste: a review. J Hazard Mater. 2008;158:228-56. DOI: 10.1016/j.jhazmat.2008.02.001.
- [11] Lee J, Song HT, Yoo JM. Present status of the recycling of waste electrical and electronic equipment in Korea. Resour Conserv Recycl. 2007;50:380-97. DOI: 10.1016/j.resconrec.2007.01.010.
- [12] Kim E, Kim M, Lee J, Jeong J, Pandey BD. Leaching kinetics of copper from waste printed circuit boards by electro-generated chlorine in HCl solution. Hydrometallurgy. 2011;107:124-32. DOI: 10.1016/j.hydromet.2011.02.009.
- [13] Wang Ch, Hui Wang H, Liu Y. Separation of aluminum and plastic by metallurgy method for recycling waste pharmaceutical blisters. J Clean Prod. 2015;102:378-83. DOI: 10.1016/j.jclepro.2015.04.067.
- [14] Wang Ch, Wang H, Gu G-h, Fu J, Liu Y. Kinetics and leaching behaviors of aluminum from pharmaceutical blisters in sodium hydroxide solution. J Cent South Univ. 2015;22:4545-50. DOI: 10.1007/s11771-015-3004-x.
- [15] Silveira AVM, Cella M, Tanabe EH, Bertuol DA. Application of triboelectrostatic separation in the recycling of plastic wastes. Process Saf Environ Prot. 2018;114:219-28. DOI: 10.1016/j.psep.2017.12.019.
- [16] Shehu SI. Separation of Plastic Waste from Mixed Waste: Existing and Emerging Sorting Technologies Performance and Possibilities of Increased Recycling Rate with Finland as Case Study. Lappeenranta University of Technology: Finland. 2017. Available from: https://urn.fi/URN:NBN:fi-fe201709148613.
- [17] Agarwal V, Halli P, Helin S, Tesfaye F, Lundstrom M. Electrohydraulic fragmentation of aluminum and polymer fractions from waste pharmaceutical blisters. ACS Sustainable Chem. Eng. 2020;8:4137-45. DOI: 10.1021/acssuschemeng.9b06810.
- [18] Klejnowska K, Pikoń K, Ścierski W, Skutil K, Bogacka M. Influence of temperature on the composition and calorific value of gases produced during the pyrolysis of waste pharmaceutical blisters. Appl Sci. 2020;10:737. DOI: 10.3390/app10030737.
- [19] Mumladze T, Tatariants M, Rimšaitė A, Yousef SG, Denafas G. Recycling of multilayer packaging foils by using different organic solvent. Iranian J Energy Environ. 2019;10(1):38-42. DOI: 10.5829/ijee.2019.10.01.06.
- [20] Moszczański P. PL Patent PL228418B1. Method for recycling of waste polyvinyl chloride and aluminum blister packs. 19 September 2017. Bulletin of the Patent Office of the Republic of Poland 3/2018, p. 831 (30.03.2018). Available from: https://uprp.gov.pl/sites/default/files/wup/2018/03/wup03_2018.pdf.
- [21] Miękoś E, Zieliński M, Kołodziejczyk K, Jaksender M. Application of industrial and biopolymers waste to stabilise the subsoil of road surfaces. Road Mat Pavement Design. 2019;20(2):440453. DOI: 10.1080/14680629.2017.1389766.
- [22] Karpowicz R, Lewkowski J, Miękoś E, Zieliński M. The Kabachnik-Fields reaction accelerated in external magnetic field. Heteroatom Chem. 2014;25:163-70. DOI: 10.1002/hc.21149.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5e2bbf56-7f49-4b09-bd69-2758167f2d54