• A Study on the Characteristics of the Biochar by Hydrothermal Carbonization with Food Waste
  • Cho, Woo Ri;Oh, Minah;Chung, Wonduck;Park, Seong-Kyu;Bae, Sunyoung;Lee, Jai-young;
  • Department of Environmental Engineering, The University of Seoul;Department of Environmental Engineering, The University of Seoul;Department of Environmental Engineering, The University of Seoul;KOFIRST R&D Center,KF E&E Co. Ltd.;Department of Chemistry, Seoul Woment's University;Department of Environmental Engineering, The University of Seoul;
  • 열수가압탄화법(HTC, Hydrothermal Carbonization)에 의한 음식물 폐기물 biochar의 특성 연구
  • 조우리;오민아;정원덕;박성규;배선영;이재영;
  • 서울시립대학교 환경공학과;서울시립대학교 환경공학과;서울시립대학교 환경공학과;(주)케이에프이앤이 코퍼스트 R&D센터;서울여자대학교 화학과;서울시립대학교 환경공학과;
References
  • 1. Bae, S. and Koh, E., 2011, Lead and zinc sorption in biochar of cabbage using hydrothermal carbonization, J. Korea Soc. Environ. Anal., 14(4), 228-233.
  •  
  • 2. Baek, Y., 2012, The characteristics of the Bio-char with the food and wood wste, Master's Degree dissertation, Department of Environmental Engineering, University of Seoul.
  •  
  • 3. Baek, Y., Lee, J., Park, S., and Bae, S., 2014, The characteristics of the biochar with the synthetic food waste and wood waste for soil contaminated with heavy metals, J. Soil Groundw. Environ., 19(1), 1-7.
  •  
  • 4. Basccile, N., Laurent, G., Babonneau, F., Fayon, F., Titrici, M. M., and Amtonietti, M., 2009, Structual Characterization of hydrthermal carbon spheres by advanced solidstate MAS 13C NMR investigations, J. Phys. Chem., 113., 9644-9654.
  •  
  • 5. Day, D., Evans, R.J., Lee, J.W., and Reicosky, D., 2005, Economical CO2, SOx, and NOx capture from fossil-fuel utilization with combined renewable hydrogen production and largescale carbon sequestration, Energy, 30, 2558-2579.
  •  
  • 6. Chew, J.J. and Doshi, V., 2010, Recent advances in biomass pretreatment-Torrefaction fundamentals and technology, Malaysia, 4212-4222.
  •  
  • 7. Jo. W., 2015, The characteristics of Biochar with Food Waste by Hydrothermal Carbonization, The University of Seoul.
  •  
  • 8. Kang, S., 2014, The solid Fuel Production for Sewage Sludge by Torrefaction, Seoul National University of Science and Technology.
  •  
  • 9. Kim. H., 2012, A Study on the Characteristics of Biochar with the Sludge Sewage by Low Temperature Hydrothermal Carbonization, University of Seoul.
  •  
  • 10. Kim, N., Eom, M., and Kim, S., 2009, A study on the carbonization characteristics of food waste by temperature variation, J. Korea Soc. Environ. Anal., 12(2), 74-80.
  •  
  • 11. Korean Ministry of Environment, 2013, 2012 Generation and disposal current circumstance of waste in Korea.
  •  
  • 12. Lehmann, J., 2007, Bioenergy in the black, Front. Ecol. Environ., 5, 381-387.
  •  
  • 13. Lehmann, J. and Joseph, S., 2009, Biochar for environmental Management (Science and Technology): Taylor & Francis, Sterling, VA, 127-143.
  •  
  • 14. van der stelt, M.J.C., 2011, Biomass upgrading by torrefaction for the production of biofuel ; A review, The Netherlands, 3748-3762.
  •  
  • 15. Ro, K.S., Cantrell, K.B., and Hunt, P.G., 2010, High-Temperature pyrolysis of blended animal manures for producing renewable energy and value-added biochar, Ind. Eng. Chem. Res., 49, 10125-10131.
  •  
  • 16. Woo, S., 2013, Biochar for soil carbon sequestration, Clean Technology, 19(3), 202-211.
  •  

This Article

  • 2016; 21(1): 22-27

    Published on Feb 28, 2016

  • 10.7857/JSGE.2016.21.1.022
  • Received on Nov 3, 2014
  • Revised on Nov 11, 2014
  • Accepted on Jan 31, 2016

Correspondence to

  • E-mail: