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Results:
1-8
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Results: 8
Authors:
MOK YS
HAM SW
NAM IS
Citation: Ys. Mok et al., EVALUATION OF ENERGY-UTILIZATION EFFICIENCIES FOR SO2 AND NO REMOVAL BY PULSED CORONA DISCHARGE PROCESS, Plasma chemistry and plasma processing, 18(4), 1998, pp. 535-550
Authors:
MOK YS
NAM IS
Citation: Ys. Mok et Is. Nam, ROLE OF ORGANIC-CHEMICAL ADDITIVES IN PULSED CORONA DISCHARGE PROCESSFOR CONVERSION OF NO, Journal of Chemical Engineering of Japan, 31(3), 1998, pp. 391-397
Authors:
MOK YS
HAM SW
Citation: Ys. Mok et Sw. Ham, CONVERSION OF NO TO NO2 IN AIR BY A PULSED CORONA DISCHARGE PROCESS, Chemical Engineering Science, 53(9), 1998, pp. 1667-1678
Authors:
MOK YS
LEE WK
LEE YK
Citation: Ys. Mok et al., MODELING OF LIQUID EMULSION MEMBRANES FACILITATED BY 2 CARRIERS, Chemical engineering journal, 66(1), 1997, pp. 11-20
Authors:
MOK YS
LEE WK
LEE YK
Citation: Ys. Mok et al., MODELING OF LIQUID EMULSION MEMBRANES FACILITATED BY 2 CARRIERS, Chemical engineering journal, 63(2), 1996, pp. 127-137
Authors:
MOK YS
LEE KH
LEE WK
Citation: Ys. Mok et al., CONTROL OF SWELLING IN LIQUID EMULSION MEMBRANES EMPLOYED FOR LACTIC-ACID SEPARATION, Journal of chemical technology and biotechnology, 65(4), 1996, pp. 309-316
Authors:
MOK YS
LEE SC
LEE WK
Citation: Ys. Mok et al., SYNERGISTIC EFFECT OF SURFACTANT ON TRANSPORT RATE OF ORGANIC-ACID INLIQUID EMULSION MEMBRANES, Separation science and technology, 30(3), 1995, pp. 399-417
Authors:
MOK YS
LEE WK
Citation: Ys. Mok et Wk. Lee, WATER TRANSPORT IN WATER-IN-OIL-IN-WATER LIQUID EMULSION MEMBRANE SYSTEM FOR THE SEPARATION OF LACTIC-ACID, Separation science and technology, 29(6), 1994, pp. 743-764
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1-8
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