Zhang, A., L. Cui, G. Pan, L. Li, Q. Hussain, X. Zhang, J. Zheng, and D. Crowley. 2010, Effect of biochar amendment on yield and methane and nitrous oxide emissions from a rice paddy from Tai Lake plain, China. Agriculture, Ecosystems and Environment 139: 469-475
Yuan, J.H., and R.K. Xu. 2011, The amelioration effects of low temperature biochar generated from nine crop residues on an acidic Ultisol. Soil Use and Management 27: 110-115
Yuan, J. -H., R. -K. Xu, and H. Zhang. 2011. The forms of alkalis in the biochar produced from crop residues at different temperatures. Bioresource Technology 102: 3488-3497.
Van Zwieten, L., S. Kimber, S. Morris, K.Y. Chan, A. Downie, J. Rust, S. Joseph, and A. Cowie. 2010. Effects of biochar from slow pyrolysis of papermill waste on agronomic performance and soil fertility. Plant Soil 327:235-246.
Sweeten, J. M., Korenberg, J., Lepori, W. A., Annamalai, K. and Parnell, C. B., 1986, Combustion of Cattle Feedlot Manure for Energy Production. Energy in Agriculture, 5: 55-72
Sevilla. M. and A. B. Fuertes, 2009, The production of carbon materials by hydrothermal carbonization of cellulose. Carbon, 47: 2281-2289
Rogovska, N.,D. Laird, R. Cruse, P. Fleming, T. Parkin, and D. Meek. 2011, Impact of Biochar on Manure Carbon Stabilization and Greenhouse Gas Emissions. Soil Sci. Soc. Am. J. 75: 871-879
Nyle C, Brady and Ray R. Weil, 1996, The nature and properties of soils. Prentice hall
Najam, U. S. et al., 2017, Conversion of dry leaves into hydrochar through hydrothermal carbonization (HTC). J Mater Cycles Waste Manag 19: 111-117
Luke Beesley et al., 2011, The immobilisation and retention of soluble arsenic, cadmium and zinc by biochar", Environmental Pollution, Vol. 159, pp. 474-480
Liang, B., J. Lehmann, D. Solomon, J. Kinyangi, J. Grossman, B. O'Neill, J.O. Skjemstad, J. Thies, F.J. Luiz o, J. Petersen, and E.G. Neves. 2006, Black carbon increases cation exchange capacity in soils. Soil Sci. Soc. Am. J. 70: 1719-1730
Lehmann Johannes, 2009, Biochar for environmental management. Science and technology. Earthscan, London
Lehmann Johannes, 2007, Bioenergy in the black. Front, Ecol Environ, 5(7): 381-387
Lee, S.H., J.S. Lee, Y.J. Choi, and J.G. Kim, 2009, In situ stabilization of cadmium-, lead-, and zinc-contaminated soil using various amendments. Chemosphere 77: 1069-1075
Lee, J.Y. 2011, Assessment of bottom ash amendmenton soil and turfgrass qualitiesin golf course. Ph.D. Thesis, Kangwon National University, Chunchon, Korea.
Lal, R. 2006, Enhancing crop yields in the developing countries through restoration of the soil organic carbon pool in agricultural lands. Land Degrad. Develop. 17:197-209
Kwapinski W., C.M.P. Byrne, E. Kryachko, P. Wolfram, C. Adley, J.J. Leahy, E.H. Novotny, and M.H.B. Hayes. 2010, Biochar from biomass and waste. Waste Biomass Valor 1:177-189
Kim, K.R., J.G. Kim, J.S. Park, M.S. Kim, G. Owens, G.H. Youn, and J.S. Lee, 2012, Immobilizer-assisted management of metal-contaminated agricultural soils for safer food production. J. Environ. Manage. 102: 88-95
Joseph, S., C. Peacocke, J. Lehmann, and P. Munroe. 2009, Developing a biochar classification and test methods. In: Lehmann, J., Joseph, S. (Eds.), Biochar for Environmental Management. Earthscan, London. p. 107-126
Jones, B.E.H., R.J. Haynes, and I.R. Phillips. 2010, Effect of amendment of bauxite processing sand with organic materials on its chemical, physical and microbial properties. Journal of Environmental Management 91:2281-2288
Hydrothermal carbonization(HTC)을 이용한 혼합 유기성폐 기물 Bio-coal의 에너지 적용성 평가
Gaskin, J.W., C. Steiner, K. Harris, K.C. Das, and B. Bibens. 2008, Effect of low-temperature pyrolysis conditions on biochar for agricultural use. Transactions of the ASABE. 51:2061-2069
Earthscan, Lehmann, J. et al., 2009, "Bio-char for environmental management : science and technology“
Demirbas, A. 2004, Effects of temperature and particle size on bio-char yield from pyrolysis of agricultural residues. J. Anal. Appl. Pyrolysis 72:243-248
Cho, K. S. et al., 2009, Biotechnology for the mitigation of methance emission from landfills. Kor. J. Microbiol. Biotechnology vol 37 p. 293-305
Chan, K.Y., and Z. Xu. 2009, Biochar: nutrient properties and their enhancement. In Lehmann, J. and Joseph, S. (eds) Biochar for environmental management. Earthscan, London. p. 67-84
Chan K.Y., L. Van Zwieten, I. Meszaros, A. Downie, and S. Joseph. 2007. Agronomic values of greenwaste biochar as a soil amendment. Aust. J. Soil. Res. 45:629-634.
Cao, X., et al., 2011, Chemical structures of swine-manure chars produced under diferent carbonization conditons investigated by advanced solid-state 13C nuclear magnetic resonance (NMR) spectroscopy. Energy Fuels, vol.25, p. 38-397
Bridle, T.R., and D. Pritchard. 2004, Energy and nutrient recovery from sewage sludge via pyrolysis. Water. Sci. Technol. 50:169-175
Bonelli, P.R., P.A. Della Rocca, E.G. Cerrella, and A.L. Cukierman. 2001, Effect of pyrolysis temperature on composition, surface properties and thermal degradation rates of Brazil Nut shells. Biores. Sci. Technol. 76:15-22
Biller Patrick, 2013, “Hydrothermal processing of microalgae”, University of Leeds; Reza Mohammad Toufiqur, 2011, "Hydrothermal carbonization of lign cellulosic biomass", University of Nevada, Reno
Berge, N.D., et al., 2011, Hydrothermal carbonization of municipal waste streams. Environ Sci Technol, vol.45, p. 5696-5703
Asai, H., B.K. Samson, H.M. Stephan, K. Songyikhangsuthor, K. Homma, Y. Kiyono, Y. Inoue, T. Shiraiwa, and T. Horie. 2009. Biochar amendment techniques for upland rice production in northern Laos 1. Soil physical properties, leaf SPAD and grain yield. Field Crops Research 111:81-84
'
하수슬러지와 우분 배합 Biochar의 토양개량제 활용성 연구 = A Study on Utilization of Biochar Mixed with Sewage Sludge and Cattle Manure as a Soil Conditioner'
의 유사주제(
) 논문