Advanced SearchSearch Tips
Effect of Methane Production from Pig Manure Slurry According to The Solids Concentration and The Crushing Solids of Pig Manure Slurry
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Effect of Methane Production from Pig Manure Slurry According to The Solids Concentration and The Crushing Solids of Pig Manure Slurry
Jeong, Kwang-Hwa; Kim, Jung-Kon; Lee, Dong-Jun; Lee, Dong-Hyun; Cho, Won-Mo;
  PDF(new window)
Recently, the number of anaerobic digestion facility for livestock manure is on the rise in Korea. All of the livestock manure anaerobic digestion facilities in operation use pig manure slurry as a substrate for anaerobic digestion. Generally, pig manure slurry is composed of 97% water and 3% solids. The particulate matter, such as corn in the form of particles that is undigested by pig is contained in the pig manure slurry. Particulate matter is a factor reducing the effectiveness of biogas production in the anaerobic digestion process. In this study, mechanical grinding treatment was applied to analyze the effect of methane production from pig manure slurry by reducing the particle size of the slurry. On the other hand, the effect of the solid concentration levels on methane production and methane content of the biogas was analyzed. The fine particle concentration in the pig manure slurry was increased by the mechanical grinding treatment. And methane production and methane content of the biogas were higher in grinded pig manure slurry than untreated raw slurry.
Anaerobic digestion;Biogas;Pig manure slurry;Pre-treatment;
 Cited by
[통계청 통계자료, "가축통계", 통계청] Korean Statistical Information Service, "Statistical Information of livestock farming in Korea" (2014).

[정광화, 김중곤, Modabber Ahmed Khan, 한덕우, 곽정훈, "국내 가축분뇨 처리시설 형태별 특성조사 분석", 유기물 자원화] Jeong, K. H., Kim, J. K., Modabber Ahmed Khan, Han, D. W., Kwag, J. H., "A Study on the Characteristics of Livestock Manure Treatment Facility in Korea", J. of KORRA, 22(4), pp. 28-44. (2014).

International symposium for production energy from livestock manure., "Plan for recycling of livestock manure", National Institute of Animal Science, RDA (2015).

Clemens, J., Trimborn, M., Weiland, P. and Amon. B., "Mitigation of greenhouse gas emissions by anaerobic digestion of cattle slurry", Agri Ecosyst Environ, 112, pp. 171-177. (2006). crossref(new window)

Bonmati A., X. Flotats, L. Mateu and E. Campos., "Study of thermal hydrolysis as a pretreatment to mesophilic anaerobic digestion of pig slurry", Water Sci Tech, 44, pp. 109-116. (2001).

Van Lier J.B., A. Tilche, B.K. Ahring, H. Macarie, R. Moletta, M. Dohanyo, L.W. Hulshoff Pol, P. Lens and W. Werstraete, "New perspectives in anaerobic digestion". Water Sci Tech, 43, pp. 1-18. (2001).

[허남효, 박순철, 이진석, 이준표, 강호. "암모니아 탈기공정을 이용한 혐기소화 슬러지 탈수액의 고농도 암모니아성질소 제거 및 회수". 대한 환경공학회지] Heo, N. H., Park, S. C., Lee, J. S., Lee, J. P., Kang, H., "Removal and Recovery of High Strength Ammonia-Nitrogen from Dewatering of Anaerobic Digested Sludge using Ammonia Stripping", Journal of Ko\-rean Society of Environmental Engineering, 23(4), pp. 601-612. (2001).

[박우균, 전항배, 권순익, 채규정, 박노백, "돈분 슬러리 성상에 따른 최적 바이오 가스 회수", 한국환경농학회지] Park, W. K., Jun, H. B., Kwon, S. I., Chae, K. J., Park, N, B., "Study on Characteristics of Biogas Production and Liquid Fertilizer with Anaerobic Co digestion of Livestock Manure and Food", Korean Journal of soil science and fertilizer, 44(5), pp. 895-902. (2011).

[김상현, 주현준, 하수슬러지, "돈분뇨, 음식물 쓰레기 탈리액 병합소화 타당성 평가", 유기물 자원화] Kim, S. H., Ju, H. J., "Feasibility of Co-Digestion of Sewage Sludge, Swine Waste, and Food Waste Leachate", Journal of the Korea organic resources recycling association, 20(1), pp. 61-70. (2012).

[김홍석, 이태진, "오존 가용화를 통한 혐기성 소화조 개선에 관한 연구", 한국폐기물자원순환학회지] Kim, H. S., Lee, T. J., "A Study on Improvement of Anaerobic Single-Single Digester through Ozone Solubilization", Journal of Korean Society of waste management, 28(6), pp. 594-603. (2011).

[강호, 신경숙, "유기성폐기물의 회분식 혐기성 최종생분해도와 다중분해속도 해석", 대한환경공학회지] Kang, H., Shin, K. S., "Determination of ultimate biodegradability and multiple decay rate coefficients in anaerobic batch degradation of organic wastes", Journal of Korean Society Environmental Engineers, 27(5), pp. 555-601. (2005).

[김동진, " 혐기소화에서의 바이오가스 생산 증진을 위한 슬러지 전처리 기술", 청정기술] Kim, D, J, "Pre-treatment Technology of Wastewater Sludge for Enhanced Biogas Production in Anaerobic Digestion", Clean Technology, 19(4), pp. 355-368. (2013).

AOAC., "Official Methods of Analysis", AOAC International (2007).

APHA., Standard Methods for the Examination of Water and Wastewater, 21th Edition. (2005).

[이영행, 박성현, 성낙창, "음식물 쓰레기 주입 형태에 따른 혐기성 소화조의 메탄가스 발생 특성에 관한 연구", 유기물 자원화] Lee, Y. H., Park, S. H., Sung, N. C., "Study on Production Characteristic of Methane Gas in Anaerobic Digestion Reactor according to Input Type of Food Waste", J. of KOWREC, 9(4), pp. 55-60. (2001).

Izumi, K, Okishio, Y.K, Nagao, N, Niwa, C, Yamamoto, S, Toda, T, "Effects of particle size on anaerobic digestion of food waste", Int. Biodeterior. Biodegrad, 64 (7), 601-608. (2010) crossref(new window)

[박우균, 전항배, 권순익, 채규정, 박노백, "돈분 슬러리 성상에 따른 최적 바이오 가스 회수", 한국환경농학회지] Park, W. K., Jeon, H. B., Kwon, S. I., Chae, K. J., Park, N, B., "Optimum Recovery of Biogas from Pig Slurry with Different Compositions", Korean Journal of Environmental Agriculture, 29(2). pp. 197-205. (2010).

[남궁규철, 전체옥, "메탄발효 효율향상을 위한 하.폐수 슬러지의 전처리 기술", 한국미생물학회지] Namkung, K. C,, Jeon, C. O., "Pretreatment of Waste-activated Sludge for Enhancement of Methane Production", Kor. J. Microbiol. Biotechnol, 38(4), pp. 362-372. (2010).