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Total 131 articles [ 키워드: Activated Carbon ] |
No. |
Article |
71 |
Korean Journal of Chemical Engineering, 29 (6), pp.743-749 (2012) The examination of surface chemistry and porosity of carbon nanostructured adsorbents for 1-naphthol removal from petrochemical wastewater streams Anbia M, Moradi SE |
72 |
Korean Journal of Chemical Engineering, 29 (5), pp.601-605 (2012) Experimental study and artificial neural network simulation of methane adsorption on activated carbon Molashahi M, Hashemipour H |
73 |
Korean Journal of Chemical Engineering, 29 (4), pp.489-493 (2012) The removal of the acetonitrile using activated carbon-based sorbent impregnated with sodium carbonate Park JJ, Jung SY, Park CG, et al. |
74 |
Korean Journal of Chemical Engineering, 29 (1), pp.89-94 (2012) Investigation of CO2 adsorption by bagasse-based activated carbon Boonpoke A, Chiarakorn S, Laosiripojana N, et al. |
75 |
Korean Journal of Chemical Engineering, 28 (12), pp.2250-2254 (2011) Methylation of methyltrichlorosilane with methyl chloride over active metals and activated carbon Liu Y, Jiang Y, Yin H, et al. |
76 |
Korean Journal of Chemical Engineering, 28 (12), pp.2255-2261 (2011) Equilibrium, kinetic and thermodynamic study of removal of reactive orange 12 on platinum nanoparticle loaded on activated carbon as novel adsorbent Ghaedi M, Tashkhourian J, Pebdani AA, et al. |
77 |
Korean Journal of Chemical Engineering, 28 (12), pp.2344-2350 (2011) Preparation and characterization of activated carbons for SO2 adsorption from Taixi anthracite by physical activation with steam Zhu Y, Gao J, Li Y, et al. |
78 |
Korean Journal of Chemical Engineering, 28 (9), pp.1882-1888 (2011) A study on removal efficiency of phenol and humic acid using spherical activated carbon doped by TiO2 Jung HJ, Hong JS, Suh JK |
79 |
Korean Journal of Chemical Engineering, 28 (3), pp.793-799 (2011) Application of micellar enhanced ultrafiltration and activated carbon fiber hybrid processes for lead removal from an aqueous solution Son G, Lee S |
80 |
Korean Journal of Chemical Engineering, 28 (1), pp.84-92 (2011) Optimizing photocatalytic degradation of phenol by TiO2/GAC using response surface methodology Sin JC, Lam SM, Mohamed AR |
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