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Plastic Waste Recycling: Experiences, Challenges and Possibilities in a Circular Economy-A State-of-the-Art Review

Yıl 2022, Cilt: 4 Sayı: 3, 524 - 534, 30.12.2022

Öz

Worldwide, plastic products are essential items, transforming our everyday life. Demand and usage are gradually increasing. Subsequently, plastic waste generation also increased to 287 million tonnes in 2019. Despite several benefits from plastic products, the mismanagement of plastic waste and its detrimental effects on the environment, living species, and nonliving element is a global concern. The waste plastics are the cause of great nuisance. Recycling waste plastics is one of the best solutions to get rid of the pest. On the other hand, 4% of petroleum resources worldwide are used for plastic production. Many technologies have been introduced to recycle plastic waste in different applications such as energy generation, secondary plastic production, construction materials, road construction, composite materials, and others. Proper management of plastic waste through the circular economy principle is one of the sustainable approaches to increase the recycling possibilities of plastic waste in different productive applications leading to replenishing the depletion of natural resources, reducing the harmful effects on the environment, and improving sustainability in the plastic industries, at the same time policy formation is essential to control the mismanagement and misuse of plastic waste throughout the globe. This article has explored plastic waste recycling and application possibilities in a circular economy, replenishing nonrenewable resource depletion, reducing carbon budget, environmental pollution and increasing sustainable development.

Kaynakça

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  • Domenech, T., Bahn-Walkowiak, B., 2019. Transition towards a resource-efficient circular economy in Europe: policy lessons from the EU and the member states. Ecological Economics 155, 7-19.
  • Eriksen, M.K., Christiansen, J.D., Daugaard, A.E., Astrup, T.F., 2019. Closing the loop for PET, PE and PP waste from households: Influence of material properties and product design for plastic recycling. Waste Management 96, 75-85.
  • Ferasso, M., Beliaeva, T., Kraus, S., Clauss, T., Ribeiro‐Soriano, D., 2020. Circular economy business models: The state of research and avenues ahead. Business Strategy and the Environment 29 (8), 3006-3024.
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Yıl 2022, Cilt: 4 Sayı: 3, 524 - 534, 30.12.2022

Öz

Kaynakça

  • Acharya, B., Dutta, A., Minaret, J., 2015. Review on comparative study of dry and wet torrefaction. Sustainable Energy Technologies and Assessments 12, 26-37.
  • Ahmed, A., Ugai, K., Kamei, T., 2010. Application of gypsum waste plasterboard and waste plastic trays to enhance the performance of sandy soil. In-Ground Improvement and Geosynthetics 165-173, GeoShanghai 2010 International Conference. https://doi.org/10.1061/41108(381)22.
  • Appiah, J.K., Berko-Boateng, V.N., Tagbor, T.A., 2017. Use of waste plastic materials for road construction in Ghana. Case Studies in Construction Materials 6, 1-7.
  • Arena, U., 2012. Process and technological aspects of municipal solid waste gasification. a review. Waste Manage 32, 625-639.
  • Arriaga, A., Lopez, G., Amutio, M., Bilbao, J., Olazar, M.. 2013. Syngas from steam gasification of polyethylene in a conical spouted bed reactor. Fuel 109, 461-419.
  • Asadi, S.S., 2017. Pet bottle waste as a supplement to concrete fine aggregate. International Journal of Civil Engineering and Technology 8 (1), 558-568.
  • Awasthi, A.K., Cheela, V.S., D’Adamo, I., Iacovidou, E., Islam, M. R., Johnson, M., Miller, T.R., Parajuly, K., Parchomenko, A., Radhakrishan, L., Zhao, M., Zhang, C., Li, J., 2021. Zero waste approach towards a sustainable waste management. Resources, Environment and Sustainability 3, 100014. https://doi.org/10.1016/j.resenv.2021.100014.
  • Awoyera, P.O., Adesina, A., 2020. Plastic wastes to construction products: Status, limitations and future perspective. Case Studies in Construction Materials 12, e00330.
  • Ayeleru, O.O., Dlova, S., Akinribide, O.J., Ntuli, F., Kupolati, W.K., Marina, P.F., Blencowe, A., Olubambi, P.A., 2020. Challenges of plastic waste generation and management in sub-Saharan Africa: A review. Waste Management 110, 24-42. https://doi.org/10.1016/j.wasman.2020.04.017.
  • Babayemi, J.O., Nnorom, I.C., Osibanjo, O., Weber, R., 2019. Ensuring sustainability in plastics use in Africa: consumption, waste generation, and projections. Environmental Sciences Europe 31 (1), 1-20.
  • Benavides, P.T., Dunn, J.B., Han, J., Biddy, M., Markham, J., 2018. Exploring comparative energy and environmental benefits of virgin, recycled, and bio-derived PET bottles. ACS Sustainable Chemistry & Engineering 6 (8), 9725-9733.
  • Bose, B.P., 2021. Recycling Selected Wastes for Sustainable Construction Materials: A Unique Promotion of Circular Economy (Doctoral dissertation, IIT Kharagpur).
  • Bose, B.P., 2022. Dredged Sediments are One of the Valuable Resources: A Review. International Journal of Earth Sciences Knowledge and Applications 4 (2), 324-331.
  • Bose, B.P., Ghosh, D., 2022. Stockholm Conference to Kyoto Protocol–A Review of Climate Change Mitigation Initiatives. International Journal of Earth Sciences Knowledge and Applications 4 (2), 338-350.
  • Bose, B.P., Shaikh, J., Nagendra, R.O.Y., Dehuri, A.N., Debashruti, B.O.S.E., Ghosh, D., 2021. Quantifying Sustainability and Energy Benefit by Recycling of Ground Granulated Blast-Furnace Slag (GGBS) on Replacement of Natural Fertile Topsoil Using for Fired Clay Brick Making Process–An Experimental Study. International Journal of Earth Sciences Knowledge and Applications 3 (3), 244-251.
  • Cámara-Creixell, J., Scheel-Mayenberger, C., 2019. PetStar PET bottle-to-bottle recycling system, a zero-waste circular economy business model. In Towards Zero Waste, Springer, Cham, pp. 191-213.
  • Centobelli, P., Cerchione, R., Chiaroni, D., Del Vecchio, P., Urbinati, A., 2020. Designing business models in circular economy: A systematic literature review and research agenda. Business Strategy and the Environment 29 (4), 1734-1749.
  • Chaukura, N., Gwenzi, W., Bunhu, T., Ruziwa, D.T., Pumure, I., 2016. Potential uses and value-added products derived from waste polystyrene in developing countries: A review. Resources, Conservation and Recycling 107, 157-165.
  • Chen, S.L., Liu, Z., Jiang, S.H., Hou, H.Q., 2020. Carbonization: a feasible route for reutilization of plastic wastes. Science and the Total Environment 710, 136250.
  • Chen, X., Xi, F., Geng, Y., Fujita, T., 2011. The potential environmental gains from recycling waste plastics: Simulation of transferring recycling and recovery technologies to Shenyang, China. Waste Management 31 (1), 168-179.
  • Choi, D., Jang, D., Joh, H.-I., Reichmanis, E., Lee, S., 2017. High performance graphitic carbon from waste polyethylene: thermal oxidation as a stabilisation pathway revisited. Chemical Materials 29, 9518-9527.
  • de Titto, E., Savino, A., 2019. Environmental and health risks related to waste incineration. Waste Management & Research 37 (10), 976-986.
  • Doğan-Sağlamtimur, N., Bilgil, A., Güven, A., Ötgün, H., Yıldırım, E. D., Arıcan, B., 2019. Producing of qualified oil and carbon black from waste tyres and pet bottles in a newly designed pyrolysis reactor. Journal of Thermal Analysis and Calorimetry 135(6), 3339-3351.
  • Dogu, O., Pelucchi, M., Van de Vijver, R., Van Steenberge, P. H., D'hooge, D. R., Cuoci, A., Mehl, M., Frassoldati, A., Faravelli, T., Van Geem, K.M., 2021. The chemistry of chemical recycling of solid plastic waste via pyrolysis and gasification: State-of-the-art, challenges, and future directions. Progress in Energy and Combustion Science 84, 100901.
  • Domenech, T., Bahn-Walkowiak, B., 2019. Transition towards a resource-efficient circular economy in Europe: policy lessons from the EU and the member states. Ecological Economics 155, 7-19.
  • Eriksen, M.K., Christiansen, J.D., Daugaard, A.E., Astrup, T.F., 2019. Closing the loop for PET, PE and PP waste from households: Influence of material properties and product design for plastic recycling. Waste Management 96, 75-85.
  • Ferasso, M., Beliaeva, T., Kraus, S., Clauss, T., Ribeiro‐Soriano, D., 2020. Circular economy business models: The state of research and avenues ahead. Business Strategy and the Environment 29 (8), 3006-3024.
  • Ferreira, J.J., Fernandes, C. I., Ferreira, F.A., 2020. Technology transfer, climate change mitigation, and environmental patent impact on sustainability and economic growth: A comparison of European countries. Technological Forecasting and Social Change 150, 119770.
  • Geyer, R., Jambeck, J.R., Law, K.L., 2017. Production, use, and fate of all plastics ever made. Science Advances 3 (7), e1700782.
  • Ghodrat, M., Alonso, J.A., Hagare, D., Yang, R., Samali, B., 2019. Economic feasibility of energy recovery from waste plastic using pyrolysis technology: An Australian perspective. International Journal of Environmental Science and Technology 16 (7), 3721-3734.
  • Gu, B., Tang, X., Liu, L., Li, Y., Fujiwara, T., Sun, H., Gu, A., Yao, Y., Duan, R., Song, R., Jia, R., 2021. The recyclable waste recycling potential towards zero waste cities-A comparison of three cities in China. Journal of Cleaner Production 295, 126358.
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  • Muhammad, C., Onwudili, J.A., Williams, P.T., 2015. Catalytic pyrolysis of waste plastic from electrical and electronic equipment. Journal of Analytical and Applied Pyrolysis 113, 332-339.
  • Nobre, C., Alves, O., Durão, L., Şen, A., Vilarinho, C., Gonçalves, M., 2021. Characterisation of hydrochar and process water from the hydrothermal carbonisation of Refuse Derived Fuel. Waste Management 120, 303-313.
  • Perera, S., Arulrajah, A., Wong, Y.C., Horpibulsuk, S., Maghool, F., 2019. Utilising recycled PET blends with demolition wastes as construction materials. Construction and Building Materials 221, 200-209.
  • Postema, A.R., De Groot, H., Pennings, A.J., 1990. Amorphous carbon fibres from linear low density polyethylene. Journal of Materials Science 25, 4216-4222.
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  • Qureshi, M.S., Oasmaa, A., Pihkola, H., Deviatkin, I., Tenhunen, A., Mannila, J., Minkkinen, H., Pohjakallio, M., Laine-Ylijoki, J., 2020. Pyrolysis of plastic waste: opportunities and challenges. Journal of Analytical and Applied Pyrolysis 152, 104804.
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Toplam 87 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yer Bilimleri ve Jeoloji Mühendisliği (Diğer)
Bölüm Review
Yazarlar

Bishnu Pada Bose Bu kişi benim

Achuta Nanda Dehurı Bu kişi benim

Debashruti Bose Bose Bu kişi benim

Diptasri Ghosh Bu kişi benim

Yayımlanma Tarihi 30 Aralık 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 4 Sayı: 3

Kaynak Göster

AMA Bose BP, Dehurı AN, Bose DB, Ghosh D. Plastic Waste Recycling: Experiences, Challenges and Possibilities in a Circular Economy-A State-of-the-Art Review. IJESKA. Aralık 2022;4(3):524-534.