| Review of oil water core annular flow S Ghosh, TK Mandal, G Das, PK Das Renewable and Sustainable Energy Reviews 13 (8), 1957-1965, 2009 | 165 | 2009 |
| Flow regime identification of two-phase liquid–liquid upflow through vertical pipe AK Jana, G Das, PK Das Chemical engineering science 61 (5), 1500-1515, 2006 | 145 | 2006 |
| CFD simulation of core annular flow through sudden contraction and expansion VVR Kaushik, S Ghosh, G Das, PK Das Journal of Petroleum Science and Engineering 86, 153-164, 2012 | 102 | 2012 |
| Oil–water flows through sudden contraction and expansion in a horizontal pipe–Phase distribution and pressure drop T Balakhrisna, S Ghosh, G Das, PK Das International Journal of Multiphase Flow 36 (1), 13-24, 2010 | 100 | 2010 |
| Pressure drop in liquid‐liquid two phase horizontal flow: experiment and prediction DP Chakrabarti, G Das, S Ray Chemical Engineering & Technology: Industrial Chemistry‐Plant Equipment …, 2005 | 96 | 2005 |
| The split of stratified gas–liquid flow at a small diameter T-junction G Das, PK Das, BJ Azzopardi International journal of multiphase flow 31 (4), 514-528, 2005 | 94 | 2005 |
| Simulation of core annular downflow through CFD—A comprehensive study S Ghosh, G Das, PK Das Chemical Engineering and Processing: Process Intensification 49 (11), 1222-1228, 2010 | 81 | 2010 |
| Flow pattern transition during gas liquid upflow through vertical concentric annuli—part I: experimental investigations G Das, PK Das, NK Purohit, AK Mitra | 65 | 1999 |
| Identification of stratified liquid–liquid flow through horizontal pipes by a non-intrusive optical probe DP Chakrabarti, G Das, PK Das Chemical engineering science 62 (7), 1861-1876, 2007 | 63 | 2007 |
| Oil water flow through different diameter pipes: similarities and differences TK Mandal, DP Chakrabarti, G Das Chemical Engineering Research and Design 85 (8), 1123-1128, 2007 | 62 | 2007 |
| Liquid‐Liquid Stratified Flow through Horizontal Conduits T Sunder Raj, DP Chakrabarti, G Das Chemical Engineering & Technology: Industrial Chemistry‐Plant Equipment …, 2005 | 61 | 2005 |
| Simulation of core annular in return bends—A comprehensive CFD study S Ghosh, G Das, PK Das Chemical engineering research and design 89 (11), 2244-2253, 2011 | 54 | 2011 |
| The transition from water continuous to oil continuous flow pattern DP Chakrabarti, G Das, PK Das AIChE journal 52 (11), 3668-3678, 2006 | 49 | 2006 |
| Rise velocity of a Taylor bubble through concentric annulus G Das, PK Das, NK Purohit, AK Mitra Chemical engineering science 53 (5), 977-993, 1998 | 48 | 1998 |
| An optical probe for liquid–liquid two-phase flows AK Jana, TK Mandal, DP Chakrabarti, G Das, PK Das Measurement Science and Technology 18 (5), 1563, 2007 | 44 | 2007 |
| Rise of Taylor bubbles through narrow rectangular channels S Bhusan, S Ghosh, G Das, PK Das Chemical Engineering Journal 155 (1-2), 326-332, 2009 | 43 | 2009 |
| Mass transfer characteristics of liquid–liquid flow in small diameter conduits KG Biswas, G Das, S Ray, JK Basu Chemical Engineering Science 122, 652-661, 2015 | 41 | 2015 |
| Liquid–liquid two phase flow through a horizontal T-junction S Pandey, A Gupta, DP Chakrabarti, G Das, S Ray Chemical Engineering Research and Design 84 (10), 895-904, 2006 | 38 | 2006 |
| Flow pattern transition during gas liquid upflow through vertical concentric annuli—part II: mechanistic models G Das, PK Das, NK Purohit, AK Mitra | 38 | 1999 |
| ANN–based prediction of two‐phase gas–liquid flow patterns in a circular conduit H Sharma, G Das, AN Samanta AIChE journal 52 (9), 3018-3028, 2006 | 36 | 2006 |
Sumana Ghoshiit roorkee在 iitr.ac.in 的电子邮件经过验证
