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노남선(Nho, Nam-Sun),신대현(Shin, Dae-Hyun),박소원(Park, Sou-Won),이경환(Lee, Kyong-Hwan),김광호(Kim, Kwang-Ho),전상구(Jeon, Sang-Goo),조봉규(Cho, Bong-Gyu) 한국신재생에너지학회 2006 신재생에너지 Vol.2 No.2
The target of this work was the process development of demonstration plant to produce the high quality alternative fuel oil by the pyrolysis of mixed plastic waste. In the first step of research, the bench-scale units of 70 t/y and the pilot plant of 360 t/y had been developed. Main research contents in this step were the process performance test of pilot plant of 360 ton/year and the development of demonstration plant of 3,000 t/y, which was constructed at Korea R & D Company in Kimjae City. The process performance of pilot plant of 360 t/y showed about 80% yield of liquid product, which was obtained by both light gas oil(LGO) and heavy gas oil(HGO), The boiling point range distribution of LO product that was mainly consisting of olefin components in PONA group appeared at between that of commercial gasoline and kerosene. On the other hand, HO product was mainly paraffin and olefin components and also appeared at upper temperature distribution range than commercial diesel. Gas product showed a high fraction of C₃;and;C₄ product like LPG composition, but also a high fraction of CO₂ and CO by probably a little leak of process.
Study on the Criteria of Raw Materials for RDF
노남선(Nho, Namsun),신대현(Shin, Daehyun),배달희(Bae, Dalhee),공승대(Kong, Seungdae),조서영(Cho, Seoyoung),김광호(Kim, Kwangho) 한국신재생에너지학회 2011 한국신재생에너지학회 학술대회논문집 Vol.2011 No.05
RDF(Refuse-Derived Fuel) is a fuel of pelletized form made of combustible solid wastes and can not only be used as alternative energy to fossil fuel but also solve troubles in thermal uses of incinerator. As the first stage for obtaining elementary data required to develop criteria of raw materials appropriate to RDF combustion facilities actively spread recently in Korea, preliminary experiments were conducted on CO, SOx, NOx and HCl production and reduction characteristics in combustion of RDF. RDF samples weighing 2~3 g per a sample were manufactured in a lab-scale way and combustion tests of RDF were carried out in electric furnace with quartz tube of 50 mm inside diameter.
노남선(Nho, Nam-Sun),신대현(Shin, Dae-Hyun),박소원(Park, Sou-Won),이경환(Lee, Kyong-Hwan),김광호(Kim, Kwang-Ho),전상구(Jeon, Sang-Goo),조봉규(Cho, Bong-Gyu) 한국신재생에너지학회 2006 한국신재생에너지학회 학술대회논문집 Vol.2006 No.06
The target of this work was the process development of demonstration plant to produce the high quailty alternative fuel oil by the pyrolysis of mixed plastic waste. In the first step of research, the bench-scale units of 70t/y and the pi lot plant of 360 t/v had been developed. Main research contents in this step were the process performance test of pilot plant ot 360ton/year and the development of demonstration plant of 3 000 t/y which was constructed at Korea R & D Company in Kimjae City. The process performance of pilot plant of 360 t/v showed components in PONA group appeared at between that of commercial gasoline and kerosene. On the other hand, HO product was mainly paraffin and olefin components and also appeared at upper temperature distribution range than commercial diesel. Gas product showed a high fraction of C₃;and;C₄ product like LPG composition, but also a high fraction of CO₂ and CO by probably a little leak of process.
노남선(Namsun Nho),전상구(Sanggu Jeon),고강석(Kangseok Ko),김광호(Kwangho Kim),권은희(Eunhee Kwon) 한국신재생에너지학회 2021 한국신재생에너지학회 학술대회논문집 Vol.2021 No.7
에너지 함량이 높은 가연성 폐기물을 산업생산 활동이나 가정 생활에 필요한 에너지로 활용하는 폐기물 에너지의 범위는 크게 폐기물 고형연료(SRF : Solid Refuse Fuel), 고분자 폐기물의 열분해 연료유, 가연성 폐기물의 가스화 연료, 소각열 등으로 구분이 가능하다. 본 연구에서는 환경부에서 매년 발간하는 “전국 폐기물 발생 및 처리 현황” 및 “지정폐기물 발생 및 처리 현황” 자료와 5년마다 발간하는 “전국 폐기물 통계 조사” 자료를 참고하여 국내 가연성 폐기물에 대한 에너지 잠재량을 산출하였다. 통계 자료에 수록된 폐기물 발생량에 평균 발열량을 곱한 수치를 지리적 잠재량으로 정의하였고, 다양한 종류의 폐기물 에너지화 기술에 대한 평균적인 에너지 회수율을 적용하여 기술적 잠재량을 계산하였다. 또한 최근에 사회적 문제로 크게 부각되고 있는 폐플라스틱 순환경제 구축과 관련하여 고분자 폐기물에 대한 발생/처리 현황과 재활용 기술 별 에너지 잠재량도 간단히 살펴보았다.
노남선(Namsun Nho),조상민(Sangmin Cho),소진영(Jinyoung So),김광호(Kwangho Kim),김유미(Youmi Kim),김현구(Hyungoo Kim),강용혁(Yongheack Kang) 한국신재생에너지학회 2016 신재생에너지 Vol.12 No.S2
Combustible waste can provide the energy required for industrial production activity or home life, and generally be classified as waste solid fuel (SRF : Sold Refuse Fuel), pyrolytic fuel oil of polymer wastes, gasification fuel of combustible wastes, and incineration heat, etc. This study examined the energy potential for domestic waste based on the statistical data (Generation & Management Status of Domestic Waste (2013)) published annually by the Ministry of Environment. The geographical potential was defined as the numerical values of the quantity of waste generation in statistical data multiplied by the average heating value. The technical potential was calculated from the recovery rate of representative waste energy technology. Based on the 2013 fiscal year, the geographical potential of domestic combustible wastes was 8,360,000 TOE/year, and the technical potential including waste gas, was presumed to be approximately 10,450,000 TOE/year.