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Total 140 articles [ 키워드: Drop ] |
No. |
Article |
61 |
Korean Journal of Chemical Engineering, 33 (7), pp.2084-2089 (2016) Effects of oxidized biodiesel on formation of particulate matter and NOx from diesel engine Kang H, Song H, Ha J, et al. |
62 |
Korean Journal of Chemical Engineering, 33 (7), pp.2160-2168 (2016) Vacuum enhanced membrane distillation for trace contaminant removal of heavy metals from water by electrospun PVDF/TiO2 hybrid membranes Moradi R, Monfared SM, Amini Y, et al. |
63 |
Korean Journal of Chemical Engineering, 33 (6), pp.1757-1766 (2016) Recent developments in scale-up of microfluidic emulsion generation via parallelization Jeong HH, Issadore D, Lee D |
64 |
Korean Journal of Chemical Engineering, 33 (5), pp.1534-1550 (2016) Heat transfer and fluid flow modeling in serpentine microtubes using adaptive neuro-fuzzy approach Beigzadeh R, Hajialyani M, Rahimi M |
65 |
Korean Journal of Chemical Engineering, 33 (5), pp.1743-1748 (2016) Superhydrophobic, flexible and gas-permeable membrane prepared by a simple one-step vapor deposition Kim BR, Kim DH, Kim YD |
66 |
Korean Journal of Chemical Engineering, 33 (3), pp.775-781 (2016) New criteria for filament breakup in droplet-on-demand inkjet printing using volume of fluid (VOF) method Poozesh S, Akafuah N, Saito K |
67 |
Korean Journal of Chemical Engineering, 33 (3), pp.1059-1069 (2016) Combined operation of outlet streams swing with partial-feed in a simulated moving bed Kim KM, Song JY, Lee CH |
68 |
Korean Journal of Chemical Engineering, 33 (2), pp.726-734 (2016) Characteristics of pressure drop during the pulse-jet cleaning of a ceramic filter for high temperature and high pressure Kim JH, Kim YC, Choi JH |
69 |
Korean Journal of Chemical Engineering, 33 (1), pp.57-62 (2016) Microfluidic room temperature ionic liquid droplet generation depending on the hydrophobicity and interfacial tension Hwang JW, Choi JH, Choi B, et al. |
70 |
Korean Journal of Chemical Engineering, 33 (1), pp.312-318 (2016) Preparation of monodisperse poly(styrene-co-divinylbenzene) microspheres by vibration dispersion method Wang Y, Li G, Chen S, et al. |
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