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The Characteristics of the Biochar with the Synthetic Food Waste and Wood Waste for Soil Contaminated with Heavy Metals
Baek, Ye-Seul;Lee, Jai-Young;Park, Seong-Kyu;Bae, Sunyoung;
Department of Environmental Engineering, The University of Seoul;Department of Environmental Engineering, The University of Seoul;KOFIRST R&D Center;Department of Chemistry, Seoul Women's University;
인공 음식물 혼합 폐기물 바이오차의 토양 중금속 흡착 가능성을 위한 특성 분석
백예슬;이재영;박성규;배선영;
서울시립대학교;서울시립대학교;(주)케이에프이앤이 코퍼스트R&D센터;서울여자대학교;

References

1. Akhtar, J. and Amin, N.A.S., 2011, A review on process conditions for optimum bio-oil yield in hydrothermal liquefaction of biomass, Renew. Sust. Energ. Rev., 15, 1615-1624.
2. Ascough, P.L., Bird, M.I., Francis, S.M., Thornton, B., Midwood, A.J., Scott, A.C., and Apperley, D., 2011, Variability in oxidative degradation of charcoal: influence of production conditions and environmental exposure, Geochim. Cosmochim. Ac., 75, 2361-2378.
3. Bae, S. and Koh, E., 2011, Lead and Zinc sorption on Biochar of Cabbage using Hydrothermal Carbonization, J. Korea Soc. Environ. Anal., 14, 228-233.
4. Beesley, L. and Marmirolib, M., 2011, The immobilisation and retention of soluble arsenic, cadmium and zinc by biochar, Environ. Pollut., 159, 474-480.
5. Berge, N.D., Ro, K.S., Mao, J., Flora, J.R., Chappell, M.A., and Bae, S., 2011, Hydrothermal carbonization of municipal waste streams, Environ. Sci. Technol., 45, 5696-5703.
6. Cheng, C.H., Lehmann, J., and Engelhard, M.H., 2008, Natural oxidation of black carbon in soils: changes in molecular form and surface charge along a climosequence, Geochim. Cosmochim. Ac., 72, 1598-1610.
7. Day, D., Evans, R.J., Lee, J.W., and Reicosky, D., 2005, Economical $CO_2$, $SO_x$, and $NO_x$ capture from fossil-fuel utilization with combined renewable hydrogen production and large-scale carbon sequestration, Energy, 30, 2558-2579.
8. Foley, N.J., Thomas, K.M., Forshaw, P.L., Stanton, D., and Norman, P.R., 1997, Kinetics of water vapor adsorption on activated carbon, Langmuir, 13, 2083-2089.
9. Glaser, B., Haumaier, L., Guggenberger, G., and Zech, W., 2001, The "Terra Preta" phenomenon: a model for sustainable agriculture in the humid tropics, Naturwissen., 88, 37-41.
10. Kim, H.-W., Bae, S., and Lee, J.-Y., 2013, A study on the removal of heavy metals in soil by sewage slude biochar, J. Soil Groundw. Environ., 18, 58-64.
11. Kim, S.S., 1991, Development of Heavy Metal Adsorbent Utilising Natural Zeolite, M. S. Thesis, Kyungpook National University, Daegu, Korea.
12. Kim, Y.K., 2002, A preparation of adsorbent from incinerator fly ash and adsorption characteristics of heavy metal, M. S. Thesis, Kangwon National University, Chuncheon, Korea.
13. Lehmann, J., 2007, Bioenergy in the black, Front. Ecol. Environ., 5, 381-387.
14. Liang, B., Lehmann, J., Solomon, D., Kinyangi, J., Grossman, J., O''Neill, B., Skjemstad, J.O., Thies, J., Luizao, F.J., Petersen, J., and Neves, E.G., 2006, Black carbon increases cation exchange capacity in soils, Soil Sci. Soc. Am. J., 70, 1719-1730.
15. Liu, Z., Demisie, W., and Zhang, M., 2013, Simulated degradation of biochar and its potential environmental implications, Environ. Pollut., 179, 146-152.
16. Melo, L.C.A., Coscione, A.R., Abreu, C.A., Puga, A.P., and Camargo, O.A., 2013, Influence of pyrolysis temperature on cadmium and zinc sorption capacity of sugar cane straw-derived biochar, Bioresources, 8, 4992-5004.
17. Mochidzuki, K., Sato, N., and Sakoda, A., 2005, Production and characterization of carbonaceous adsorbents from biomass wastes by aqueous phase carbonization, Adsorption, 11, 669-673.
18. Mohan, D., Pittman C.U., Bricka, M., Smith, F., Yancey, B., Mohammad, J., Steele, P.H., Alexandre-Franco, M.F., Gomez-Serrano, V., and Gong, H., 2007, Sorption of arsenic, cadmium and lead by chars produced from fast pyrolysis of wood and bark during bio-oil production, J. Colloid Interface Sci., 310, 57-73.
19. Oen, A.M.P., Cornelissen, G., and Breedveld, G.D., 2006, Relation between PAH and black carbon contents in size fractions of Norwegian harbor sediments, Environ. Pollut., 141, 370-380.
20. Ozcimen, D. and Ersoy-Mericboyu, A., 2010, Characterization of biochar and bio-oil samples obtained from carbonization of various biomass materials, Renewable energy.
21. 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.
22. Roberts, K.G., Gloy, B.A., Joseph, S., Scott, N.R., and Lehmann, J., 2010, Life cycle assessment of biochar systems: estimating the energetic, economic, and climate change potential, Environ. Sci. Technol., 44, 827-833.
23. Ruthven, D.W., 1984, Principles of adsorption and adsorption process, John wiley & Sons., U.S.A.
24. Sevilla, M. and Fuertes, A.B., 2009a, The production of carbon materials by hydrothermal carbonization of cellulose, Carbon, 47, 2281-2289.
25. Sevilla, M. and Fuertes, A.B., 2009b, Chemical and structural properties of carbonaceous products obtained by hydrothermal carbonization of saccharides, Chemistry, 15, 4195-4203.
26. Trakal, L., Komarek, M., Szakova, J., Zemanova, V., and Tlustos, P., 2011, Biochar application to metal-contaminated soil: evaluating of Cd, Cu, Pb and Zn sorption behavior using single- and multi-element sorption experiment, Plant Soil Environ., 57, 372-380.
27. Uchimiya, M., Lima, I.M., Klasson, K.T., and Wartelle, L.H., 2010, Contaminant pimmobilization and nutrient release by biochar soil amendment: Roles of natural organic matter, Chemosphere, 80, 935-940.
28. Uchimiya, M., Bnnon, D.I., and Wartelle, L.H., 2012, Retention of heavy metlas by carboxyl functional groups of biochars in small arms ranges soil, J. Agric. Food Chem., 60, 1798-1809.
29. Yang, R.T., 1987, Gas separation by adsorption process, Imperial College Press, London.
30. Youm, S.-J., Yun, S.-T., Kim, J.-H., and Park, M.-E., 2002, Neutralization of acid rock drainage from the Dongrae pyrophyllite deposit: A study on behavior of heavy metals, J. Soil Groundw. Environ., 7, 68-76.
31. Zwieten, L.V., Kimber, S., Morris, S., Chan, K.Y., Downie, A., Rust, J., Joseph, S., and Cowie, A., 2010, Effects of biochar from slow pyrolysis of papermill waste on agronomic performance and soil fertility, Plant Soil, 327, 235-246.

This Article

2014; 19(1): 1-7

Published on Feb 28, 2014
10.7857/JSGE.2014.19.1.001
Received on Feb 6, 2013
Revised on Dec 20, 2013
Accepted on Dec 20, 2013

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