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

Editorial Office

1 
Bhatnagar A., Sillanpaa M., 2011, A review of emerging adsorbents for nitrate removal from water, Chemical Engineering Journal, Vol. 168, No. 2, pp. 493-504DOI
2 
Chaplin B., Reinhard M., Schneider W., Schth C., Shapley J., Strathmann T., Werth C., 2012, Critical review of Pd-based catalytic treatment of priority contaminants in water, Environmental Science & Technology, Vol. 46, No. 7, pp. 3655-3670DOI
3 
Dankova Z., Mockovciakova A., Dolinska S., 2014, Influence of ultrasound irradiation on cadmium cations adsorption by montmorillonite, Desalination and Water Treatment, Vol. 52, pp. 5462-5469DOI
4 
Gao Z., Zhang Y., Li D., Werth C., Zhang Y., Zhou X., 2015, Highly active Pd-In/mesoporous alumina catalyst for nitrate reduction, Journal of Hazardous Materials, Vol. 286, pp. 425-431DOI
5 
Garron A., Epron F., 2005, Use of formic acid as reducing agent for application in catalytic reduction of nitrate in water, Water Research, Vol. 39, No. 13, pp. 3073-3081DOI
6 
Holtzer M., Bobrowski A., Grabowska B., 2011, Montmorillonite: a comparison of methods for its determination in foundry bentonites, Metalurgija, Vol. 50, No. 2, pp. 119-122Google Search
7 
Hwang J., Kim N., Lee H., 2002, Characteristics of Al-pillared clay synthesized from bentonite and the adsorption properties for phosphate ion, [Korean Literature], Journal of the Mineralogical Society of Korea, Vol. 15, No. 4, pp. 315-327Google Search
8 
Islam J., Singhal N., O'Sullivan M., 2001, Modeling biogeochemical processes in leachate-contaminated soils: a review, Transport in Porous Media, Vol. 43, pp. 407-440DOI
9 
Jeong S., Werth C., Jo W., Han U., 2005, The properties of carbonaceous materials that control sorption capacities of hydrophobic organic contaminants, [Korean Literature], Journal of the Geological Society of Korea, Vol. 41, No. 3, pp. 437-450Google Search
10 
Kar P., Mishra B.G., 2016, Potential application of Pd-Ni bimetallic nanoparticles dispersed in Al-pillared clay matrix as catalyst for hydrodechlorination of chloroanilines from aqueous sources, Journal of Environmental Chemical Engineering, Vol. 4, pp. 1962-1969DOI
11 
Kim J., Hong S., Kim J., Lee M., 2015, Effect of preparation method for Pd/C catalysts on Pd characterizationand their catalytic activity, Applied Chemistry for Engineering, Vol. 26, No. 5, pp. 575-580DOI
12 
Kim M., Chung S., Lee M., Lee D., Lee K., 2013, Catalytic nitrate reduction in water over mesoporous silica Supported Pd-Cu catalysts, Clean Technology, Vol. 19, No. 1, pp. 65-72DOI
13 
Kim Y., Kim M., Choi M., 2016, Synergistic integration of catalysis and ion exchange for highly selective reduction of nitrate into N2, Chemical Engineering Journal, Vol. 289, pp. 423-432DOI
14 
Krawczyk N., Karski S., Witonska I., 2011, The effect of support porosity on the selectivity of Pd-In/support catalystsin nitrate reduction, Reaction Kinetics, Mechanisms and Catalysis, Vol. 103, No. 2, pp. 311-323DOI
15 
Kumar B., Dhakshinamoorthy A., Pitchumani K., 2014, K10 montmorillonite clays as environmentally benign catalysts for organic reactions, Catalysis Science & Technology, Vol. 4, No. 8, pp. 2378-2396DOI
16 
Li S., Wu P., Li H., Zhu N., Li P., Wu J., Dang Z., 2010, Synthesis and characterization of organo-montmorillonite supported iron nanoparticles, Applied Clay Science, Vol. 50, pp. 330-336DOI
17 
Mart´ınez J., Ortiz A., Ortiz I., 2017, State-of-the-art and perspectives of the catalytic and electrocatalytic reduction of aqueous nitrates, Applied Catalysis B: Environmental, Vol. 207, pp. 42-59DOI
18 
Ministry of Environment and National Institute of Environmental Research (ME and NIER), 2016, [Korean Literature], 2015 Annual Groundwater Quality Monitoring Report
19 
Molu Z., Yurdakoc K., 2010, Preparation and characterization of aluminum pillared K10 and KSF for adsorption of trimethoprim, Microporous and Mesoporous Materials, Vol. 127, No. 1, pp. 50-60DOI
20 
Pizarro A., Molina C., Rodriguez J., Epron F., 2015, Catalytic reduction of nitrate and nitrite with mono-and bimetallic catalysts supported on pillared clays, Journal of Environmental Chemical Engineering, Vol. 3, No. 4, pp. 2777-2785DOI
21 
Prusse U., Hahnlein M., Daum J., Vorlop K., 2000, Improving the catalytic nitrate reduction, Catalysis Today, Vol. 55, No. 1, pp. 79-90DOI
22 
Prusse U., Vorlop K., 2001, Supported bimetallic palladium catalysts for water-phase nitrate reduction, Journal of Molecular Catalysis A: Chemical, Vol. 173, No. 1, pp. 313-328DOI
23 
Rao G., Mishra B., 2007, Al-pillared clay supported CuPd catalysts for nitrate reduction, Journal of Porous Materials, Vol. 14, pp. 205-212DOI
24 
Salem I., El-Ghamry H., El-Ghobashy M., 2014, Application of montmorillonite-Cu(II)ethylenediamine catalyst for the decolorization of Chromotrope 2R with H2O2 in aqueous solution, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, Vol. 139, pp. 130-137DOI
25 
Soares O., Orfao J., Pereira M., 2008, Activated carbon supported metal catalysts for nitrate and nitrite reduction in water, Catalysis Letters, Vol. 126, No. 3-4, pp. 253-260DOI
26 
Soares O., Pereira M., Orfao J., Faria J., Silva C., 2014, Photocatalytic nitrate reduction over Pd-Cu/TiO, Chemical Engineering Journal, Vol. 251, pp. 123-130DOI
27 
Swirk K., Motak M., Grzybek T., Czosnek C., Kniaz P., 2017, The influence of the modification of acidic montmorillonites with polyacrylamide and copper deposition on SCR-NH3 catalytic performance, E3S Web of Conferences, Vol. 14, pp. 02037DOI
28 
Varadwaj G., Parida K., 2013, Montmorillonite supported metal nanoparticles: an update on syntheses and applications, RSC Advances, Vol. 3, No. 33, pp. 13583-13593DOI
29 
Zuo S., Zhou R., 2006, Al-pillared clays supported rare earths and palladium catalysts for deep oxidation of low concentration of benzene, Applied Surface Science, Vol. 253, No. 5, pp. 2508-2514DOI