1 김영민, "폐플라스틱 필름의 열분해특성에 대한 연구" 한국공업화학회 28 (28): 23-28, 2017
2 유영선, "농산부산물인 옥피, 대두피, 왕겨, 소맥피를 이용한 산화생분해 바이오플라스틱 필름 개발" 한국청정기술학회 20 (20): 205-211, 2014
3 박조용, "급속 열분해 바이오 오일의 활용 및 품질기준" 한국수소및신에너지학회 31 (31): 223-233, 2020
4 Cheng, S., "Upgrading Pyrolysis Bio-oil to Hydrocarbon Enriched Biofuel Overbifunctional Fe-Ni/HZSM-5 Catalyst in Supercritical Methanol" 167 : 117-126, 2017
5 Kim, J.-S., "Thermochemical Conversion System by Recirculation of Heat Carrier and Gases Thereby"
6 Kiran, N., "Recyling of Plastic Wastes Via Pyrolysis" 29 (29): 273-283, 2000
7 Kawamoto, H., "Pyrolysis Behavior of Levoglucosan as an Intermediate in Cellulose Pyrolysis : Polymerization into Polysaccharide as a Key Reaction to Carbonizedproduct Formation" 49 : 469-473, 2003
8 Geyer, R., "Production, Use, and Fate of All Plastics Ever Made" 3 (3): e1700782-, 2017
9 Gug, J., "Processing and Properties of a Solid Energy Fuel From Municipal Solid Waste (MSW) and Recycled Plastics" 35 : 283-292, 2015
10 Lee, H. S., "Korean Social Trends 2018 - Generation and Recycling of Waste Plastics" Statistical Research Institut 2018
1 김영민, "폐플라스틱 필름의 열분해특성에 대한 연구" 한국공업화학회 28 (28): 23-28, 2017
2 유영선, "농산부산물인 옥피, 대두피, 왕겨, 소맥피를 이용한 산화생분해 바이오플라스틱 필름 개발" 한국청정기술학회 20 (20): 205-211, 2014
3 박조용, "급속 열분해 바이오 오일의 활용 및 품질기준" 한국수소및신에너지학회 31 (31): 223-233, 2020
4 Cheng, S., "Upgrading Pyrolysis Bio-oil to Hydrocarbon Enriched Biofuel Overbifunctional Fe-Ni/HZSM-5 Catalyst in Supercritical Methanol" 167 : 117-126, 2017
5 Kim, J.-S., "Thermochemical Conversion System by Recirculation of Heat Carrier and Gases Thereby"
6 Kiran, N., "Recyling of Plastic Wastes Via Pyrolysis" 29 (29): 273-283, 2000
7 Kawamoto, H., "Pyrolysis Behavior of Levoglucosan as an Intermediate in Cellulose Pyrolysis : Polymerization into Polysaccharide as a Key Reaction to Carbonizedproduct Formation" 49 : 469-473, 2003
8 Geyer, R., "Production, Use, and Fate of All Plastics Ever Made" 3 (3): e1700782-, 2017
9 Gug, J., "Processing and Properties of a Solid Energy Fuel From Municipal Solid Waste (MSW) and Recycled Plastics" 35 : 283-292, 2015
10 Lee, H. S., "Korean Social Trends 2018 - Generation and Recycling of Waste Plastics" Statistical Research Institut 2018
11 Sriningsih, W., "Fuel Production from LDPE Plastic Waste over Natural Zeolite Supported Ni, Ni-Mo, Co-Mo Metals" 20 : 215-224, 2014
12 Syamsiro, M., "Fuel Oil Production from Municipal Plastic Wastes in Sequential Pyrolysis and Catalytic Reforming Reactors" 47 : 180-188, 2014
13 Murata, K., "Evaluation of Ni-based Catalysts for the Catalytic Fast Pyrolysis of Jatropha Residues" 118 : 308-316, 2016
14 Miandad, R., "Effect of Plastic Waste Types on Pyrolysis Liquid Oil" 119 : 239-252, 2017
15 Pitz, W. J., "Development of an Experimental Database and Chemical Kinetic Models for Surrogate Gasoline Fuels" SAE 195-216, 2007
16 Piao, G., "Combustion Test of Refuse Derived Fuel in Fluidized Bed" 20 (20): 443-447, 2000
17 Dawood, A., "Catalytic Pyrolysis of γ-irradiated Polypropylene (PP) over HY-zeolite for Enhancing the Reactivity and the Product Selectivity" 76 (76): 45-52, 2002
18 Miandad, R., "Catalytic Pyrolysis of Plastic Waste: Moving Toward Pyrolysis Based Biorefineries" 7 : 27-, 2019
19 Miandad, R., "Catalytic Pyrolysis of Plastic Waste: A Review" 102 : 822-838, 2016
20 Wang, L., "Catalytic Performance and Charaterization of Ni-Co Catalysts for the Steam Reforming of Biomass Tar to Synthesis Gas" 112 : 654-661, 2013
21 Yu, F., "Bio-fuel Production from the Catalytic Pyrolysis of Soybean Oil over Me-Al-MCM-41 (Me=La, Ni or Fe) Mesoporous Materials" 104 : 325-329, 2013
22 Park, K. -B., "Activator-assisted Pyrolysis of Polypropylene" 253 : 113558-, 2019
23 Sharuddin, S. D. A., "A Review on Pyrolysis of Plastic Wastes" 115 : 308-326, 2016