Browse > Article
http://dx.doi.org/10.5322/JES.2009.18.10.1181

Study on applicability of RDF in Municipal Waste Landfill Site  

Kim, Jung-Kwon (Department of Environmental Engineering, Dong-Eui University)
Publication Information
Journal of Environmental Science International / v.18, no.10, 2009 , pp. 1181-1187 More about this Journal
Abstract
Results for application of RDF(Refuse Derived Fuel) to selected wastes in metropolitan and small and medium cities are as follows. The physical characteristics of waste are paper, plastic, food waste, and so on. The proximate analysis in P city showed 20.2% of moisture, 71% of combustible material, and 8.8% of ash on annual average. That in G city showed 31.6% of moisture, 59.5% of combustible material, and 8.9% of ash. Ultimate analysis in P city showed 52.04% of carbon, 7.02% of hydrogen, 28.80% of oxygen, 0.66% of nitrogen, and 0.09% of sulfur. Heating value was 3,363 kcal/kg. Ultimate analysis in G city showed 50.85% of carbon, 6.56% of hydrogen, 29.86% of oxygen, 0.79% of nitrogen, and 0.12% of sulfur. Heating value in the G city was somewhat lower than that in the P city with 2,632 kcal/kg. Thus, application of RDF in metropolitan city was more effective than that in small and medium cities. Heating value in mixture for the P city was lower than that in waste of the volume rate waste charge system alone by 143 kcal/kg. In proximate analysis, moisture, and combustible material were likely to be more adequate to RDF.
Keywords
RDF(Refuse Derived Fuel); Proximate analysis; Ultimate analysis; Heating value;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Kagiya T., M. Ukita and T. Higuchi, 2007, Study on Heat Generation Characteristics in Storing RDF, Journal of Japan Society of Waste Management, 18(4), 264-273   DOI
2 Hattori H. and H. Moritomi, 2009, Heat Exchanger Tube Corrosion in RDF Combustion Boiler, Journal of Japan Society of Waste Management, 20(3), 180-188
3 홍상연, 황현욱, 강동, 2009, 음식물찌꺼기를 이용한 RDF로 자원화가능성에 관한연구, 한국폐기물학회지, 26(3), 252-262
4 이동규, 신희용, 곽 현, 2005, 하수슬러지와 폐기물 고형연료(RDF)의 혼합연소특성, 한국폐기물학회지, 22(6), 533-540
5 환경부, 2007, 폐기물공정시험법
6 환경부, 2007, 환경오염공정시험법
7 부산광역시, 2008, 부산환경자원공원 반입쓰레기 성상변화 조사용역 최종보고서, 부산, 52pp
8 정재춘, 강동수, 김남천, 김영재, 김철, 김형석, 노기환, 박석환, 박지훈, 이남훈, 장성호, 조규진, 허관, 2007, 폐기물처리, 동화기술, 64pp
9 윤균덕, 조연행, 유해민, 이원석, 오창석, 김주청, 이준환, 박인출, 2003, 환경성을 고려한 RDF의 품질 특성평가, 산업자원부, 서울, 168-170
10 수도권매립지관리공사, 2007, 수도권매립지 통계연감, 인천
11 환경부, 2008, 환경백서, 538pp
12 Caputo C. A. and M. P. Pelagagge, 2002, RDF production plants : I Design and costs, Applied Thermal Engineering, 22, 423-437   DOI   ScienceOn
13 Kobayashi N., Y. Itaya and G. Piao, 2005, The behavior of flue gas from RDF combustion in a fluidized bed, Powder Technology, 151, 87-95   DOI   ScienceOn
14 Dong T. T. T. and B. K. Lee., 2009, Analysis of potential RDF resources from solid waste and their energy values in the largest industrial city of korea, Waste management, 29, 1725-1731   DOI   ScienceOn
15 Yamanari M. and S. Shimada, 2007, Life Cycle Assessment of RDF Power Generation in Northern Ishikawa Prefecture, Journal of Japan Society of Waste Management, 18(1), 37-48   DOI