The Journal of
the Korean Society on Water Environment

The Journal of
the Korean Society on Water Environment

Bimonthly
  • ISSN : 2289-0971 (Print)
  • ISSN : 2289-098X (Online)
  • KCI Accredited Journal

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  3. 2014-11 (Vol. 30, No. 6)
  4. 10.15681/KSWE.2014.30.6.647
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1 
Ajjabi L. C., Chouba L., 2009, Biosorption of Cu and Zn from Aqueous Solutions by Dried Marine Green Macroalga Chartomorpha linum, Journal of Enironmental Management, Ajjabi, L. C. and Chouba, L. (2009). Biosorption of Cu and Zn from Aqueous Solutions by Dried Marine Green Macroalga Chartomorpha linum, Journal of Enironmental Management, 90, pp. 3485-3489., Vol. 90, pp. 3485-3489Google Search
2 
An J. H., Kim C. C., Choi S. B., Kim S. R., Jung J. Y., Lee W. A., Lee T. S., 2007, A Study on Removal Effect of Heavy Metals in Mine Wastewater by Adsorbens, Institute of Health and Environment, An, J. H., Kim, C. C., Choi, S. B., Kim, S. R., Jung, J. Y., Lee, W. A., and Lee, T. S. (2007). A Study on Removal Effect of Heavy Metals in Mine Wastewater by Adsorbens, Institute of Health and Environment, 18, pp. 138-149. [Korean Literature], Vol. 18, pp. 138-149Google Search
3 
Ata A., Koldas S., 2006, Acid Mine Drainage (AMD): Causes, Treatment and Case Studies, Journal of Cleaner Production, Ata, A. and Koldas, S. (2006). Acid Mine Drainage (AMD): Causes, Treatment and Case Studies, Journal of Cleaner Production, 14(12-13), pp. 1139-1145., Vol. 14, No. 12-13, pp. 1139-1145Google Search
4 
Chang S. O., 2003, A Study on the Calcium Bioavailability of Eggshell Powder in the Growing Rats, Korean Journal of Nutrition, Chang, S. O. (2003). A Study on the Calcium Bioavailability of Eggshell Powder in the Growing Rats, Korean Journal of Nutrition, 36, pp. 684-690. [Korean Literature], Vol. 36, pp. 684-690Google Search
5 
Choi H. J., 2014, Effect of Optical Panel Distance in a Photobioreactor for Nutrient Removal and Cultivation of Microalgae, World Journal of Microbiology and Biotechnology, Choi, H. J. (2014). Effect of Optical Panel Distance in a Photobioreactor for Nutrient Removal and Cultivation of Microalgae, World Journal of Microbiology and Biotechnology, 30, pp. 2015-2023., Vol. 30, pp. 2015-2023DOI
6 
Choi H. J., Lee S. M., 2014, Effect of Optical Panel Thickness for Nutrient Removal and Cultivation of Microalgae in the Photobioreactor, Bioprocess and Biosysystem Engineering, Choi, H. J. and Lee, S. M. (2014). Effect of Optical Panel Thickness for Nutrient Removal and Cultivation of Microalgae in the Photobioreactor, Bioprocess and Biosysystem Engineering, 37(4), pp. 697-705., Vol. 37, No. 4, pp. 697-705DOI
7 
Chojnacka K., 2005, Biosorption of Cr(III) Ions by Eggshells, Journal of Hazardous Materials, Chojnacka, K. (2005). Biosorption of Cr(III) Ions by Eggshells, Journal of Hazardous Materials, 121, pp. 167-173., Vol. 121, pp. 167-173DOI
8 
Doshi S. M., 2006, Bioremediation of Acid Mine Drainage using Sulfate-Reducing Bacteria, Doshi, S. M. (2006). Bioremediation of Acid Mine Drainage using Sulfate-Reducing Bacteria, U. S. Environmental Protection Agency, Office of Solid Waste and Emergency Response and Office of Superfund Remediation and Technology Innovation, p. 65., pp. 65Google Search
9 
Gazea B., Adam K., Kontopoulos A., 1996, A Review of Passive Systems for the Treatment of Acid Mine Drainage, Minerals Engineering, Gazea, B., Adam, K., and Kontopoulos, A. (1996). A Review of Passive Systems for the Treatment of Acid Mine Drainage, Minerals Engineering, 9(1), pp. 23-42., Vol. 9, No. 1, pp. 23-42DOI
10 
Hsieh C. H., Wu W. T., 2009, A Novel Photobioreactor with Transparent Rectangular Chambers for Cultivation of Microalgae, Biochemical Engineering Journal, Hsieh, C. H. and Wu, W. T. (2009). A Novel Photobioreactor with Transparent Rectangular Chambers for Cultivation of Microalgae, Biochemical Engineering Journal, 46(3), pp. 300-305., Vol. 46, No. 3, pp. 300-305DOI
11 
Johnson D. B., Hallberg K. B., 2003, The Microbiology of Acidic Mine Waters, Research in Microbioogy, Johnson, D. B. and Hallberg, K. B. (2003). The Microbiology of Acidic Mine Waters, Research in Microbioogy, 154, pp. 466-473., Vol. 154, pp. 466-473DOI
12 
Johnson D. B., Hallberg K. B., 2005, Acid Mine Drainage Remediation Options: a Review, Science of the Total Environment, Johnson, D. B. and Hallberg, K. B. (2005). Acid Mine Drainage Remediation Options: a Review, Science of the Total Environment, 338, pp. 3-14., Vol. 338, pp. 3-14DOI
13 
Kuyucak N., 2002, Role of Microorganisms in Mining: Generation of Acid Rock Drainage and its Mitigation and Treatment, European Journal of Mineral Processing Environmental Protection, Kuyucak, N. (2002). Role of Microorganisms in Mining: Generation of Acid Rock Drainage and its Mitigation and Treatment, European Journal of Mineral Processing Environmental Protection, 2(3), pp. 179-196., Vol. 2, No. 3, pp. 179-196Google Search
14 
Liu C. B., Lin L. P., Su Y. C., 1996, Utilization of Chlorella vulgaris for Uptake of Nitrogen, Phosphorus and Heavy Metals, Journal of Chinese Agricultural Chemical Society, Liu, C. B., Lin, L. P., and Su, Y. C. (1996). Utilization of Chlorella vulgaris for Uptake of Nitrogen, Phosphorus and Heavy Metals, Journal of Chinese Agricultural Chemical Society, 34, pp. 331-343., Vol. 34, pp. 331-343Google Search
15 
Park H. J., Jeong S. W., Yang J. K., Kim B. G., Lee S. M., 2007, Removal of Heavy Metals using Waste Eggshells, Journal of Environmental Science, Park, H. J., Jeong, S. W., Yang, J. K., Kim, B. G., and Lee, S. M. (2007). Removal of Heavy Metals using Waste Eggshells, Journal of Environmental Science, 19, pp. 1436-1441., Vol. 19, pp. 1436-1441DOI
16 
Peppas A., Komnitsas K., Halikia I., 2000, Use of Organic Covers for Acid Mine Drainage Control, Minerals Engineering, Peppas, A., Komnitsas, K., and Halikia, I. (2000). Use of Organic Covers for Acid Mine Drainage Control, Minerals Engineering, 13(5), pp. 563-574., Vol. 13, No. 5, pp. 563-574DOI
17 
Richmond A., Cheng-Wu Z., 2001, Optimization of a Flat Plate Glass Reactor for Mass Production of Nannochloropsis sp., Journal of Biotechnology, Richmond, A. and Cheng-Wu, Z. (2001). Optimization of a Flat Plate Glass Reactor for Mass Production of Nannochloropsis sp., Journal of Biotechnology, 85(3), pp. 259-269., Vol. 85, No. 3, pp. 259-269DOI
18 
Romera E., Gonzáalez F., Ballester A., Bláazquez M. L., Muñnoz J. A., 2007, Comparative Study of Biosorption of Heavy Metals using Different Types of Algae, Bioresource Technology, Romera, E., Gonzáalez, F., Ballester A., Bláazquez, M. L., and Muñnoz, J. A. (2007). Comparative Study of Biosorption of Heavy Metals using Different Types of Algae, Bioresource Technology, 98(17), pp. 3344-3353., Vol. 98, No. 17, pp. 3344-3353DOI
19 
Sheoran A. S., Sheoran V., 2006, Heavy Metal Removal Mechanism of Acid Mine Drainage in Wetlands: A critical review, Minerals Engineering, Sheoran, A. S. and Sheoran, V. (2006). Heavy Metal Removal Mechanism of Acid Mine Drainage in Wetlands: A critical review, Minerals Engineering, 19, pp. 105-116., Vol. 19, pp. 105-116DOI
20 
Sierra E., Acién F. G., Fernández J. M., García J. L., González C., Molina E., 2008, Characterization of a Flat Plate Photobioreactor for the Production of Microalgae, Chemical Engineering Journal, Sierra, E., Acién, F. G., Fernández, J. M., García, J. L., González, C. and Molina, E. (2008). Characterization of a Flat Plate Photobioreactor for the Production of Microalgae, Chemical Engineering Journal, 138(1-3), pp. 136-147., Vol. 138, No. 1-3, pp. 136-147DOI
21 
Song N., Lee Y., Lee M., 2005, Remediation Process by using Lime and Calcium for Heavy Metal Contaminated Groundwater Originated from Landfills, Economic and Environmental Geology, Song, N., Lee, Y., and Lee, M. (2005). Remediation Process by using Lime and Calcium for Heavy Metal Contaminated Groundwater Originated from Landfills, Economic and Environmental Geology, 38(3), pp. 273-284., Vol. 38, No. 3, pp. 273-284Google Search
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