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신재생에너지 = New & Renewable Energy, v.18 no.4, 2022년, pp.12 - 21
최상규 (Department of Zero-carbon Fuel and Power Generation, Korea Institute of Machinery & Materials) , 최연석 (Department of Zero-carbon Fuel and Power Generation, Korea Institute of Machinery & Materials) , 정연우 (Department of Zero-carbon Fuel and Power Generation, Korea Institute of Machinery & Materials) , 한소영 (Department of Zero-carbon Fuel and Power Generation, Korea Institute of Machinery & Materials) , 응웬 반 꾸잉 (Department of Environment.Energy Machinery, University of Science and Technology)
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The pyrolysis characteristics of high-density polyethylene (HDPE), low-density polyethylene (LDPE), and polypropylene (PP) were analyzed numerically using a 1D plug flow reactor (PFR) model. A lumped kinetic model was selected to simplify the pyrolysis products as wax, oil, and gas. The simulation w...
Lee, K.J., 2015, "The reaction kinetic study of SRF?and industrial waste using TGA (Thermo Gravimetric?Analysis)", New. Renew. Energy, 11(1), 20-26.
Yoon, H.C., Cho, S.H., Lee, D.J., Moon, G.Y., and?Cho, S.H., 2016, "A study on the optimal operating?condition of a Dual Fluidized-Bed (DFB) with biomass?and SRF", New. Renew. Energy, 12(4), 77-87.
Dogu, O., Pelucchi, M., Van de Vijver, R., Van Steenberge,?P.H.M., D'hooge, D.R., Cuoci, A, Mehl, M., Frassoldati,?A., Faravelli, T., and 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", Prog. Energy Combus. Scie., 84, 100901.
Ranzi, E., Dente, M., Faravelli, T., Bozzano, G., Fabini,?S., Nava, R., Cozzani, V., and Tognotti, L., 1997,?"Kinetic modeling of polyethylene and polypropylene?thermal degradation", J. Anal. Appl. Pyrolysis., 40-41, 305-319.
Westerhout, R.W.J., Waanders, J., Kuipers, J.A.M.,?and van Swaaij, W.P.M., 1997, "Kinetics of the lowtemperature?pyrolysis of polyethene, polypropene, and?polystyrene modeling, experimental determination, and?comparison with literature models and data", Ind. Eng. Chem. Res., 36(6), 1955-1964.
Bockhorn, H., Hornung, A., Hornung, U., and Schawaller,?D., 1999, "Kinetic study on the thermal degradation of?polypropylene and polyethylene", J. Anal. Appl. Pyrolysis., 48(2), 93-109.
Kruse, T.M., Wong, H.W., and Broadbelt, L.J., 2003,?"Mechanistic modeling of polymer pyrolysis: Polypropylene",?Macromolecules, 36(25), 9594-9607.
Elordi, G., Lopez, G., Olazar, M., Aguado, R., and?Bilbao, J., 2007, "Product distribution modelling in the?thermal pyrolysis of high density polyethylene", J.?Hazard. Mater., 144(3), 708-714.
Costa, P.A., Pinto, F.J., Ramos, A.M., Gulyurtlu, I.K.,?Cabrita, I.A., and Bernardo, M.S., 2007, "Kinetic evaluation?of the pyrolysis of polyethylene waste", Energy Fuels, 21(5), 2489-2498.
Nemeth, A., Blazso, M., Baranyai, P., and Vidoczy, T.,?2008, "Thermal degradation of polyethylene modeled?on tetracontane", J. Anal. Appl. Pyrolysis, 81(2), 237-242.
Levine, S.E., and Broadbelt, L.J., 2009, "Detailed?mechanistic modeling of high-density polyethylene?pyrolysis: Low molecular weight product evolution",?Polymer Degradation and Stability, 94(5), 810-822.
Costa, P., Pinto, F., Ramos, A.M., Gulyurtlu, I., Cabrita,?I., and Bernardo, M.S., 2010, "Study of the pyrolysis?kinetics of a mixture of polyethylene, polypropylene,?and polystyrene", Energy Fuels, 24(12), 6239-6247.
Al-Salem, S.M., and Lettieri, P., 2010, "Kinetic study of?high density polyethylene (HDPE) pyrolysis", Chemical?Engineering Research and Design, 88(12), 1599-1606.
Ding, F., Xiong, L., Luo, C., Zhang, H., and Chen, X.,?2012, "Kinetic study of low-temperature conversion of?plastic mixtures to value added products", J. Anal. Appl. Pyrolysis., 94, 83-90.
Gascoin, N., Navarro-Rodriguez, A., Gillard, P., and?Mangeot, A., 2012, "Kinetic modelling of high density?polyethylene pyrolysis: Part 1. Comparison of existing?models", Polymer Degradation and Stability, 97(8), 1466-1474.
Gascoin, N., Navarro-Rodriguez, A., Fau, G., and?Gillard, P., 2012, "Kinetic modelling of High Density?PolyEthylene pyrolysis: Part 2. Reduction of existing?detailed mechanism", Polymer Degradation and Stability, 97(7), 1142-1150.
Csukas, B., Varga, M., Miskolczi, N., Balogh, S., Angyal,?A., and Bartha, L., 2013, "Simplified dynamic simulation?model of plastic waste pyrolysis in laboratory and pilot?scale tubular reactor", Fuel Process. Technol., 106, 186-200.
Zhang, H.R., Ding, F., Luo, C.R., and Chen, X.D.,?2015, "Kinetics of the low temperature conversion of polypropylene to polypropylene wax", Energy Sources,?Part A: Recovery, Utilization, and Environmental Effects, 37(15), 1612-1619.
Eidesen, H., Khawaja, H., and Jackson, S., 2018,?"Simulation of the HDPE pyrolysis process", Int. J. Multiphysics, 12(1), 79-88.
Lechleitner, A.E., Schubert, T., Hofer, W., and Lehner,?M., 2021, "Lumped kinetic modeling of polypropylene?and polyethylene co-pyrolysis in tubular reactors", Processes, 9(1), 34.
Harmon, R.E., SriBala, G., Broadbelt, L.J., and Burnham,?A.K., 2021, "Insight into polyethylene and polypropylene?pyrolysis: Global and mechanistic models", Energy Fuels, 35(8), 6765-6775.
Kulas, D.G., Zolghadr, A., and Shonnard, D., 2021,?"Micropyrolysis of polyethylene and polypropylene?prior to bioconversion: The effect of reactor temperature?and vapor residence time on product distribution", ACS?Sustainable Chem. Eng., 9(43), 14443-14450.
Jiang, G., Fenwick, R., Seville, J., Mahood, H.B., Thorpe,?R.B., Bhattacharya, S., Sanchez Monsalve, D.A., and?Leeke, G.A., 2022, "Lumped kinetic modelling of polyolefin?pyrolysis: A non-isothermal method to estimate rate?constants", J. Anal. Appl. Pyrolysis., 164, 105530.
Goodwin, D.G., Moffat, H.K., Schoegl, I., Speth, R.L.,?and Weber, B.W.. 2022, "Cantera: An object-oriented?software toolkit for chemical kinetics, thermodynamics,?and transport processes", Version 2.6.0., Accessed 22?November 2022, https://www.cantera.org.
Jung, S.H., Cho, M.H., Kang, B.S., and Kim, J.S., 2010,?"Pyrolysis of a fraction of waste polypropylene and?polyethylene for the recovery of BTX aromatics using a?fluidized bed reactor", Fuel Process. Technol., 91(3), 277-284.
Sharuddin, S.D.A., Abnisa, F., Daud, W.M.A.W., and?Aroua, M.K., 2016, "A review on pyrolysis of plastic?wastes", Energy Convers. Manag., 115, 308-326 .
Park, J.W., Oh, S.C., Lee, H.P., Kim, H.T., and Yoo,?K.O., 2000, "Kinetic analysis of thermal decomposition?of polymer using a dynamic model", Korean J. Chem. Eng., 17(5), 489-496.
Kayacan, I., and Dogan, O.M., 2008, "Pyrolysis of low?and high density polyethylene. Part I: Non-isothermal?pyrolysis kinetics", Energy Sources, Part A: Recovery,?Utilization, and Environmental Effects, 30(5), 385-391.
Aboulkas, A., El harfi, K., and El Bouadili, A., 2010,?"Thermal degradation behaviors of polyethylene and?polypropylene. Part I: Pyrolysis kinetics and mechanisms",?Energy Conversion and Management, 51(7), 1363-1369.
Saad, J.Md., Williams, P.T., Zhang, Y.S., Yao, D., Yang,?H., and Zhou, H., 2021, "Comparison of waste plastics?pyrolysis under nitrogen and carbon dioxide atmospheres:?A thermogravimetric and kinetic study", J. Anal. Appl. Pyrolysis., 156, 105135.
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