Advanced SearchSearch Tips
Adsorption Characteristics of Cadmium ions from Aqueous Solution using by-product of Brewing
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Adsorption Characteristics of Cadmium ions from Aqueous Solution using by-product of Brewing
Kim, Min-Su; Ham, Kwang-Joon; Ok, Yong-Sik; Gang, Seon-Hong;
  PDF(new window)
Biosorption is considered to be an alternative method to replace the present adsorbent systems for the treatment of metal contaminated wastewater. In this study, by-product which was abandoned from brewing factory was used to remove metal component in aqueous solution. The experimental results showed that the range of the removal efficiency is 60~91% and adsorption equilibrium was reached in about 3 hr. FT-IR and stereo microscope has been used to observe the surface conditions and changes in functional groups by calcination. At the end of elution, the amount of nitrogen and phosphorus in water was increased 11 and 7 times compare raw sample to calcinated samples. The Langmuir isotherm adequately described the adsorption of waste materials and the maximum adsorption capacity was 28.17 mg/g for Cd. The overall results suggested that waste material might can be used for biosorption of Cd.
Adsorption;Biosorbent;Calcination;Heavy metal ions;Hope;
 Cited by
우리나라 농경지 중금속 동태 및 작물흡수 연구동향,이지호;김지영;고우리;정은정;;정구복;김두호;김원일;

한국환경농학회지, 2012. vol.31. 1, pp.75-95 crossref(new window)
6가 크롬 및 유류 제거를 위한 우모 폐기물의 이용가능성,정진하;이나리;박성보;정성윤;박근태;손홍주;

Journal of Environmental Science International, 2012. vol.21. 3, pp.369-375 crossref(new window)
하수슬러지의 Biochar특성을 이용한 토양내 중금속 제거 연구,김혜원;배선영;이재영;

한국지하수토양환경학회지:지하수토양환경, 2013. vol.18. 3, pp.58-64 crossref(new window)
Mg-Sericite 응집제를 이용한 맥주공장폐수처리,최희정;

한국수처리학회지, 2015. vol.23. 3, pp.23-33 crossref(new window)
Mg-Clay응집제를 이용한 일반하수처리,최희정;

한국수처리학회지, 2015. vol.23. 2, pp.57-65 crossref(new window)
Availability of Chicken Feather for Removal of Hexavalent Chromium and Oil, Journal of Environmental Science International, 2012, 21, 3, 369  crossref(new windwow)
A Study on the Removal of Heavy Metals in Soil by Sewage Sludge Biochar, Journal of Soil and Groundwater Environment, 2013, 18, 3, 58  crossref(new windwow)
Current research trends for heavy metals of agricultural soils and crop uptake in Korea, Korean Journal of Environmental Agriculture, 2012, 31, 1, 75  crossref(new windwow)
Al-Asheh, S. Duvnjak, Z., 1997. Sorption of Cadmium and other Heavy Metals by Pine Bark, J. Hazard. Mater. 56(1), 35-51. crossref(new window)

Bae, J.S., Park, C.K., Sung, K.C., Lee, S.W. and Hwang, Y.H., 2003. A study on the adsorption of heavy metals in waste water using domestic clays, J. of Korean Oil Chemists' Soc. 21, 124-131.

Bridgwater, A.V., 2000. Renewable fuels and chemicals by thermal processing of biomass, Chem. Eng. J. 4056, 1-16.

Coates, J., 2000. Encyclopedia of Analytical Chemistry, pp.10815-10837, John Wiley & Sons , New York.

Demirbas, A., 2000. Gaseous products from biomass by pyrolysis and gasification: Effects of catalyst on hydrogen yield, Energy Conversion and Management, 43, 897-909. crossref(new window)

Freundlich, H., 1907. Ueber die adsorption in loesungen, Z. Phys. Chem. 57, 385-470.

Jeon, D.Y., Lee, K.S., Shin, H.M. and Oh, K.J., 2006. Adsorption characteristics of heavy metals for waste sludge and oyster shell, KENSS. 15, 1053-1059. crossref(new window)

Kiefer, E., L. Sigg, and P. Schosseler., 1997. Chemical and Spectroscopic Characterization of Algae Surface, Environ, Sci&Technol. 31, 759-764. crossref(new window)

Kuyucak, N. and B. Volesky., 1989. Accumulation of Cobalt by Marine Algae, Biotechnology and Bioengineering. 33, 809-814. crossref(new window)

Langmuir, I., 1918. The adsorption of gases on plane surfaces of glass, mica and platinum, J. Am Chem. Soc. 40, 1361-1403. crossref(new window)

Lee, H.Y., Hong, K.C., Lim, J.E., Joo, J.H., Yang, J.E., Ok, Y.S., 2009. Adsorption of Heavy Metal Ions from Aqueous Solution by Chestnut Shell, Kor. J. Environ. Agric. 28, 69-74. crossref(new window)

Li, Y.H., Lee, C.W. and Gullett, B.K., 2003. Importance of activated carbon's oxygen surface functional groups on elemental mercury adsorption, Fuel. 82, 451-457. crossref(new window)

Min, S.H., Han, J.S., Shin, E.W., Park, J.K., 2004. Improvement of Cadmium Ion Removal by Base treatment of Juniper Bark, Water Res. 38(5), 1289-1295. crossref(new window)

Park, S.K., Kim, H.N., Kim, Y.K., 2007. Efficacy of Cu(II) Adsorption by Chemical Modification of Pine Bark, J. of KSEE. 29, 930-937.

Shafizadeh, F. and McGinnis, G.D., 1970. Chemical composition and thermal analysis of cottonwood, Carbohydrate Research, 16, 273-282.

Shin, E.W. and Rowell, R.M., 2005. Cadmium ion sorption onto lignocellulosic biosorbent modified by sulfonation: the origin of sorption capacity improvement, Chemosphere. 60(8), 1054-1061. crossref(new window)

Socrates, G., 1994. Infrared Characteristic Group Frequencies, John Wiley&Sons, New York.

Suh, K.H., Ahn, K.H., Cho, M.C., 1998. Biosorption of Pb and Cu by Marine Algae, Korean J. Biotechnol. Bioeng. 13, 444-448.

Suh, K.H., Ahn, K.H., Kong, I.S., 1999. Biosorption and Desorption of Pb by Using Sargassum sagamianum, Korean J. Biotechnol. Bioeng. 14, 611-615.