Analysis on the Trend of the Utilization of Woody Biomass - Production, supply, and practical use of woody biomass - |
Ahn, Byeong-Il
(Dept. of Food and Resource Economics, Korea University)
Kim, Chul-Hwan (Dept. of Forest Sciences/IALS, Gyeongsang National Univ.) Lee, Ji-Young (Dept. of Forest Sciences/IALS, Gyeongsang National Univ.) Shim, Sung-Woong (Graduate student, Dept. of Forest Products, Gyeongsang National Univ.) Jo, Hu-Seung (Graduate student, Dept. of Forest Products, Gyeongsang National Univ.) Lee, Gyeong-Sun (Graduate student, Dept. of Forest Products, Gyeongsang National Univ.) Lee, Jee-Young (Graduate student, Dept. of Forest Products, Gyeongsang National Univ.) |
1 | 이진석, 2세대 바이오연료 기술 개발 현황과 전망, 바이오에너지, BioIn 2009년 11호: 1-11(2009). |
2 | Eisentraut, A., Sustainable Production of Second- Generation Biofuels. IEA Information Paper (2010). |
3 | IATA, 2nd Generation Biomass Conversion Efficiency (2010). |
4 | Cushion, E., Dieterle, G., and Whiteman, A., Bioenergy Development: Issues and impact for poverty and natural resource management (2009). |
5 | 한국농촌경제연구원, 목질 바이오매스 열에너지 개발의 경제성 분석과 에너지용 산림 폐재의 지속적 확보방안 보고서(2005). |
6 | IEA, Key World Energy Statistics (2009). |
7 | 산림청, 산림과 임업 동향에 관한 연차보고서(2011). |
8 | 에너지관리공단 신.재생에너지센터, 바이오(목질계). 북스힐 (2008). |
9 | 산림청, 목재펠릿의 에너지 활용대책(2009). |
10 | 산림청, 제 5차 산림기본계획. pp. 50-54(2007). |
11 | 교육과학기술부, 행정안전부, 농림수산식품부, 지식경제부, 환경부, 국토해양부, 산림청 저탄소에너지 생산.보급을 위한 "폐자원 및 바이오매스 에너지 대책"실행계획: 203-228(2009). |
12 | 석현덕, 민경택, 손철호, 장우환, 목질 바이오매스 열에너지 개발의 경제성 분석과 에너지용 산림폐재의 지속적 확보방안, 한국농촌경제연구원(2005). |
13 | 배정환, 목질계 바이오매스 에너지의 지역별 잠재적 파급효과 추정, 한국신재생에너지학회 추계학술대회 논문집: pp217-220(2006). |
14 | 안병일, 이균식, 김철환, 이지영, 숲가꾸기사업에서의 산림 바이오매스 발생량 추정(제 1보), 펄프종이기술 41(4): 15-24(2009). |
15 | 안병일, 이균식, 김철환, 이지영. 2009. 숲가꾸기사업에서의 산림 바이오매스 발생량 추정(제 2보), 펄프종이기술 41(4): 25-32(2009). |
16 | 강현구, 이정순, 오창용, 목질계 바이오매스의 에너지 이용사례(열병합 발전을 중심으로), 유기물자원화 16(3): 20-27(2008). |
17 | 국무조정실, 재정경제부, 기획예산처, 산업자원부, 환경부, 건교부, 산림청. 폐목재 재활용 활성화 대책(2007). |
18 | 박상준, 목재 파쇄기 (Wood Chipper and Crusher), 산림 (6): 48 (2006). |
19 | 이돈구, 산림 폐바이오매스를 활용한 발효열교환장치 개발, 농림부 보고서(2005). |
20 | 장철수, 산림내 폐잔재의 현지 활용을 위한 한국형 조립식 탄화장치 기술개발 및 실용화 연구, 농림부 보고서(2004). |
21 | 이영민, 김철환, 김재옥, 김경윤, 신태기, 송대빈, 박종열, 폐잔재의 펄프화를 통한 환경친화적 완총소재의 개발, 펄프종이기술 38(2): 61-71(2006). |
22 | European Climate Foundation, Biomass for Heat and Power Opportunity and Economics (2010). |
23 | Ericsson, K., Nilsson, L.J., Assessment of the potential biomass supply in Europe using a resource-focused approach, Biomass & Bioenergy 30: 1-15(2006). DOI |
24 | 민경택, EU 목질 바이오매스 에너지 이용현황. 농촌경제 6: 1-12(2006). |
25 | Pelkonen, P., Hakkila, P., Karajakabubem, T., and Schlamadinger, B., Woody Biomass as an Energy Source Challenges in Europe, EFI Proceedings No. 39 held in Joensuu, Finland (2001). |
26 | European Renewable Energy Council, Bioethanol Production and Use, EUBIA (2006). |
27 | Westcott, P.C., Ethanol Expansion in the United States How will the Agricultural Sector Adjust?. A Report from the Economic Research Service, USDA (2007). |
28 | US Energy Information Administration, Biomass. Secondary Energy Infobook: 12-15(2009). |
29 | 고재흥, 목질계 바이오매스에너지, News & Information for Chemical Engineers 29(3): 351-354(2011). |
30 | Kane, S., Forster, D., and Wilkinson, L., Biofuels Outlook - Ethanol Margins Improves; Biodiesel Capacity Still Idle, Equity Research Industry Report, April, 2010. |
31 | Licht, F.O., The US as A Structural Ethanol Exporter, F.O. Licht's World Ethanol and Biofuels Report, 8(21): 430-431(2010). |
32 | Global Biofuels Center, Global Biofuels Outlook 2011-2020(2011). |
33 | Naik, S.N., Goud, V.V., Rout, P.K., and Dali, A.K., Production of first and second generation biefuels: A comprehensive review, Renewable and Sustainable Energy Review 14: 578-597(2010). DOI |
34 | Sims, R., and Taylor, M., From 1st to 2nd Generation Biofuel Technologies An overview of current industry and RD&D activities, IEA Bioenergy (2008). |
35 | de Mancilha, I.M., and Karim, M.N., Evaluation of ion exchange resins for removal of inhibitory compounds from corn stover hydrolyzate for xylitol fermentation, Biotechnol. Progr. 19: 1837-1841(2003). DOI ScienceOn |
36 | Chen, X., Li, Z.H., Zhang, X.X., Hu, F.X., Ryu, D.D.Y., and Bao, J., Screening of oleaginous yeast strains tolerant to lignocellulose degradation compounds, Appl. Biochem. Biotechnol. 159: 591-604 (2009). DOI |
37 | Carvalheiro, F., Duarte, L.C., Medeiros, R., and Girio, F.M., Optimization of brewery's spent grain dilute- acid hydrolysis for the production of pentose-rich culture media, Appl. Biochem. Biotechnol. 113: 1059-1072 (2004). |
38 | Almeida, J.R.M., Modig, T., Petersson, A., Hahn- Hägerdal, B., Liden, G., and Gorwa-Grauslund, M.F., Increased tolerance and conversion of inhibitors in lignocellulosic hydrolysates by Saccharomyces cerevisiae, Journal of Chemical Technology & Biotechnology 82:340-349 (2007). DOI |
39 | Petersson, A., Almeida, J.R.M., Modig, T., Karhumaa, K., Hahn-Hägerdal, B., Gorwa-Grauslund, M.F., and Liden, G., A 5-hydroxymethyl furfural reducing enzyme encoded by the Saccharomyces cerevisiae ADH6 gene conveys HMF tolerance. Yeast 2006, 23:455-464. DOI |
40 | Palmqvist, E., and Hahn-Hägerdal, B., Fermentation of lignocellulosic hydrolysates. II: inhibitors and mechanisms of inhibition. Bioresource Technology 2000, 74:25-33. DOI ScienceOn |
41 | Geddes, C.C., Nieves, I.U., and Ingram, L.O., Advances in ethanol production, Current Opinion in Biotechnology 2011, 22: 312-319(2011). DOI |
42 | Goswami, D.Y., Alternative Energy in Agriculture, CRC Press. pp 83-102(1986). |
43 | Ciferno, J.P. and Marano, J.J., Benchmarking Biomass Gasification Technologies for Fuels, Chemicals and Hydrogen Production. U.S. Department of Energy. National Energy Technology Laboratory (2002). |
44 | Risberg, M., Black Liquor Gasification. Luea University of Technology. Sweden. MSc. Thesis (2011). |
45 | Lindstrom, M., Jameel, H., and Naithani, V., Chapter 28. Integrating Black Liquor Gasification and Pulping: A Review of Current Technology, A textbook of Materials, Chemicals, and Energy from Forest Biomass, Argyropoulos, D.S. (ed), p434, American Chemical Society (2007). |
46 | 김철환, 문지민, 김의경, 안병일, 펄프, 종이 및 종이 제품의 국민경제 기여도 분석, 펄프종이기술 42(4): 45-55(2010). |
47 | Copeland, J.E. and Hardcastle, P.D., Biomass and Energy Crops III. Aspects of Applied Biology 90 held at Defra's Central Science Laboratory, Sand Uutton, UK. 10-12 Dec. 2008: 311-316. |
48 | 산림청, 한국펠릿연료협회, 목재펠릿 길라잡이(2009). |
49 | Bergman, P.C.A, Combined torrefaction and pelletization, ECN-C-05-073 (2005). |