최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기한국환경농학회지 = Korean journal of environmental agriculture, v.36 no.1, 2017년, pp.22 - 28
박종환 (루이지애나주립대 식물환경토양과학부) , 김홍출 (경남과학기술대학교 제약공학과) , 김영진 (안전성평가연구소 환경독성연구센터) , 김성헌 (경상대학교 응용생명과학부 농생명산업 글로벌 인재 육성 사업단 농업생명과학원) , 서동철 (경상대학교 응용생명과학부 농생명산업 글로벌 인재 육성 사업단 농업생명과학원)
BACKGROUND: There is very limited knowledge of the effects of biochar derived from exhausted coffee residue on metal adsorption processes. Furthermore, only limited information is available on the adsorption mechanism of copper. The aim of this study was to evaluate the absorption behaviors of coppe...
Ahmad, M., Rajapaksha, A. U., Lim, J. E., Zhang, M., Bolan, N., Mohan, D., Vithanage, M., Lee, S. S., & Ok, Y. S. (2014). Biochar as a sorbent for contaminant management in soil and water: A review. Chemosphere 99, 19-23.
Aydin, H., Bulut, Y., & Yerlikaya, C. (2008). Removal of copper (II) from aqueous solution by adsorption onto low-cost adsorbents. Journal of Environmental Management, 87(1), 37-45.
Bohn, H., McNeal, G., & O'connor, G. (1979). Soil Chemistry. p. 329. A Wiley-Interscience Publication, New York, USA.
Cantrell, K. B., Hunt, P. G., Uchimiya, M., Novak, J. M., & Ro, K. S. (2012). Impact of pyrolysis temperature and manure source on physicochemicalcharacteristics of biochar. Bioresource Technology, 107, 419-428.
Chan, K. Y., & Xu, Z. (2009). Biochar: Nutrient properties and theirenhancement. In Biochar for environmental management science andtechnology, pp. 67-84, Earthscans, London, UK.
Chen, X., Chen, G., Chen, L., Chen, Y., Lehmann, J., McBride, M. B., & Hay, A. G. (2011). Adsorption of copper and zinc by biochars produced from pyrolysis of hardwood and corn straw in aqueous solution. BioresourceTechnology, 102(19), 8877-8884.
Ho, Y. S., & McKay, G. (1998). Sorption of dye from aqueous solution by peat. Chemical Engineering Journal, 70(2), 115-124.
Inyang, M., Gao, B., Yao, Y., Xue, Y., Zimmerman, A. R., Pullammanappallil, P., & Cao, X. (2012). Removal of heavy metals from aqueous solution by biochars derived from anaerobically digested biomass. Bioresource Technology, 110, 50-56.
Kim, B. M., Kang, C. H., Yang, J. K., Na, J. K., Jung, J. A., Jung, H. J., Lim, J. H., Ko, K. M., Kim, W. H., & Chang, Y. Y. (2012). Cu and Cd sorption of the biochar derived from coffee sludge. Journal of Soil and Groundwater Envrironemt, 17(2), 47-53.
Lagergren, S. (1898). Zur Theorie der sogenannten adsorption geloster, Stoffe, Kungliga Svenska Vetenskapsakademiens. Handlingar, 24(4), 1-39.
Lehmann, J., & Joseph, S. (2009). Biochar for Environmental Management-An Introduction. In Biochar for Environmental Management: Science and Technology, pp 1-12, Earthscan, London, UK.
Mohan, D., Sarswat, A., Ok, Y. S., & Pittman Jr., C. U. (2014). Organic and inorganic contaminants removal from water with biochar, a renewable, low cost and sustainable adsorbent-A critical review. Bioresource Technology, 160, 191-202.
Novak, J. M., Lima, I., Xing, B., Gaskin, J. W., Steiner, C., Das, K. C., Ahmedna, M., Rehrah, D., Watts, D. W., Busscher, W. J., & Schomberg, H. (2009). Characterization of designer biochar produced at different temperaturesand their effects on a loamy sand. Annals of Environmental Science, 3, 195-206.
Pellera, F. M., Giannis, A., Kalderis, D., Anastasiadou, K., Stegmann, R., Wang, J. Y., & Gidarakos, E. (2012). Adsorption of Cu(II) ions from aqueous solutions on biochars prepared from agricultural by products. Journal of Environmental Management, 96(1), 35-42.
Saenger, M., Hartge, E., Werther, J., Ogada, T., & Siagi, Z. (2001). Combustion of coffeehusks. Renewable Energy, 23(1), 103-121.
Seo, D. C., Yu, K., & DeLaune, R. D. (2008). Comparison of monometal and multimetal adsorption in Mississippi River alluvial wetland sediment: Batch and column experiments. Chemosphere, 73(11), 1757-1764.
Silva, M. A., Nebra, S. A., Machado, M. J., & Sanchez, C. G. (1998). The use of biomass residuesin the Brazilian soluble coffee industry. Biomass & Bioenergy, 14(5-6), 457-467.
Tong, X. J., Li, J. Y., Yuan, J. H., & Xu, R. K. (2011). Adsorption of Cu(II) by biochars generated from three crop straws. Chemical Engineering Journal, 172(2), 828-834.
Uchimiya, M., Chang, S., & Klasson, K. T., (2011). Screening biochars for heavy metal retention in soil: role of oxygen functional groups. Journal of Hazardous Materials, 190(1-3), 432-441.
Xu, X., Gao, X., Zhao, L., Wang, H., Yu, H., & Gao, B. (2013). Removal of Cu, Zn, and Cd from aqueous solutions by the dairy manure-derived biochar. Environmental Science and Pollution Research, 20(1), 358-368.
Yakkala, K., Yu, M. R., Roh, H., Yang, J. K., & Chang, Y. Y. (2013). Buffalo weed(Ambrosia trifida L. var. trifida) biochar for cadmium (II) and lead (II) adsorptionin single and mixed system. Desalination Water Treat. 51(40-42), 7732-7745.
Yang, D., Liang, J., Wang, Y., Sun, F., Tao, H., Zhang, L., Zhang, Z., & Ho, C. T. (2016). Tea waste: an effective and economic substrate for oyster mushroom cultivation. Journal of the Science of Food and Agriculture 96(2), 680-684.
Zimmerman, A. R. (2010). Abiotic and microbial oxidation of laboratory produced black carbon (biochar). Environmental Science & Technology, 44(4), 1295-1301.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.