ePrints@IIScePrints@IISc Home | About | Browse | Latest Additions | Advanced Search | Contact | Help

Browse by Author

Up a level
Export as [feed] Atom [feed] RSS 1.0 [feed] RSS 2.0
Group by: Item Type | No Grouping
Number of items: 54.

Conference Paper

Kumar, Sanjeev and Gandhi, KS and Kumar, R (2007) Modeling of formation of gold nanoparticles by citrate method. In: CHEMCON Meeting 2005., DEC, 2004, Mumbia.

Journal Article

Gandhi, KS (2009) Modeling of Freezing Phenomena Induced by Chemical Reactions. In: Industrial & engineering chemistry research, 48 (21). pp. 9755-9762.

Gandhi, KS and Shukla, AK and Martha, SK and Gaffoo, SA (2009) Simplified Mathematical Model for Effects of Freezing on the Low-Temperature Performance of the Lead-Acid Battery. In: Journal of the electrochemical society, 156 (3). A238-A245.

Rao, Palla Venkata Gopala and Gandhi, KS and Ayappa, KG (2007) Enhancing the Hydrophobic Effect in Confined Water Nanodrops. In: Langmuir, 23 (26). pp. 12795-12798.

Gandhi, KS (2007) Thermal properties of nanofluids: Controversy in the making? In: Current Science, 92 (6). pp. 717-718.

Pal, Sandeep and Vishal, G and Gandhi, KS and Ayappa, KG (2005) Ion Exchange in Reverse Micelles. In: Langmuir, 21 (2). pp. 767-778.

Sailaja, D and Suhasini, KL and Kumar, Sanjeev and Gandhi, KS (2003) Theory of Rate of Solubilization into Surfactant Solutions. In: Langmuir, 19 (9). pp. 4014-4026.

Bhattacharjee, Samita and Kumar, R and Gandhi, KS (2001) Modelling of protein mixture separation in a batch foam column. In: Chemical Engineering Science, 56 (19). pp. 5499-5510.

Neergat, M and Shukla, AK and Gandhi, KS (2001) Platinum-based alloys as oxygen-reduction catalysts for solid-polymer-electrolyte direct methanol fuel cells. In: Journal of Applied Electrochemistry, 31 (4). pp. 373-378.

Bandyopadhyaya, Rajdip and Kumar, R and Gandhi, KS (2000) Simulation of precipitation reactions in reverse micelles. In: Langmuir, 16 (18). pp. 7139-7149.

Sampath, S and Gandhi, KS (1999) Ammonia synthesized at atmospheric pressure. In: Current Science, 76 (1). pp. 14-15.

Shukla, AK and Ravikumar, MK and Neergat, M and Gandhi, KS (1999) A 5 W liquid-feed solid-polymer-electrolyte direct methanol fuel cell stack with stainless steel. In: Journal of Applied Electrochemistry, 29 (1). pp. 129-132.

Niyogi, Debdarsan and Kumar, R and Gandhi, KS (1999) Water blown free rise polyurethane foams. In: Polymer Engineering & Science, 31 (1). pp. 199-209.

Rajan, R and Kumar, R and Gandhi, KS (1998) Modeling of sonochemical decomposition of CCI4 in aqueous solutions. In: Environmental Science and Technology, 32 (08). pp. 1128-1133.

Shukla, AK and Ravikumar, MK and Gandhi, KS (1998) Direct methanol fuel cells for vehicular applications. In: Journal of Solid State Electrochemistry, 2 (2). pp. 117-122.

Rajan, R and Kumar, R and Gandhi, KS (1998) Modelling of sonochemical oxidation of the water-KI-CCl4 system. In: Chemical Engineering Science, 53 (02). pp. 255-271.

Bhattacharjee, Samita and Kumar, R and Gandhi, KS (1997) Prediction of separation factor in foam separation of proteins. In: Chemical Engineering Science, 52 (24). pp. 4625-4636.

Gandhi, KS and Basu, Suddhasatwa and Kumar, R (1997) Flow of liquid/liquid dispersions in a Hele-Shaw cell. In: Journal of Chemical Engineering of Japan, 30 (5). pp. 852-866.

Basu, Suddhasatwa and Kumar, Rajinder and Gandhi, KS (1997) Detachment of a coalesced-phase blob from a circular obstacle in a Hele-Shaw cell. In: Chemical Engineering Science, 52 (16). pp. 2849-2855.

Bandyopadhyaya, Rajdip and Kumar, R and Gandhi, KS and Ramkrishna, D (1997) Modeling of precipitation in reverse micellar systems. In: Langmuir, 13 (14). pp. 3610-3620.

Shreekumar, * and Kumar, R and Gandhi, KS (1996) Breakage of a drop of inviscid fluid due to a pressure fluctuation at its surface. In: Journal of Fluid Mechanics, 328 . pp. 1-17.

Manjunatha, S and Gandhi, KS and Kumar, R and Ramkrishna, Doraiswami (1996) Precipitation In Small Systems--II. Mean Field Equations More Effective Than Population Balance. In: Chemical Engineering Science., 51 (19). pp. 4423-4436.

Podual, Kairali and Kumar, R and Gandhi, KS (1996) A new model for drainage of static foams. In: Chemical Engineering Science, 51 (9). pp. 1393-1403.

Gandhi, KS and Kumar, R and Ramkrishna, Doraiswami (1995) Some Basic Aspects of Reaction Engineering of Precipitation Processes. In: Industrial & Engineering Chemistry Research, 34 (10). pp. 3223-3230.

Banerjee, Sukanta and Kumar, R and Gandhi, KS (1995) Analysis of Ultrasonically Enhanced Hydrogen Evolution for $Zn-NiCl_2$ System. In: Chemical Engineering Science, 50 (15). pp. 2409-2418.

Shrihari, * and Modak, Jayant M and Kumar, R and Gandhi, KS (1995) Dissolution of particles of pyrite mineral by direct attachment of Thiobacillus ferrooxidans. In: Hydrometallurgy, 38 (2). pp. 175-187.

Gururaj, M and Kumar, R and Gandhi, KS (1995) A Network Model of Static Foam Drainage. In: Langmuir, 11 (4). pp. 1381-1391.

Gandhi, KS and Kumar, R (1994) Sonochemical reaction engineering. In: Sadhana : Academy Proceedings in Engineering Sciences, 19 (part 6). 1055-1076 .

Manjunath, S and Gandhi, KS and Kumar, R and Ramkrishna, Doraiswami (1994) Precipitation in small systems-I. stochastic analysis. In: Chemical Engineering Science, 49 (9). pp. 1451-1463.

Naidu, Prasad DV and Rajan, R and Kumar, R and Gandhi , KS and Arakeri, VH (1994) Modelling of a batch sonochemical reactor. In: Chemical Engineering Science, 49 (6). pp. 877-888.

Naidu, DVP and Rajan, R and Kumar, R and Gandhi, KS and Arakeri, VH and Chandrasekaran, S (1994) Modelling of a batch sonochemical reactor. In: Chemical Engineering Science, 49 (6). 877-888 .

Kumar, Sanjeev and Kumar, R and Gandhi, KS (1993) A new model for coalescence efficiency of drops in stirred dispersions. In: Chemical Engineering Science, 48 (11). pp. 2025-2038.

Ramani, MV and Kumar, R and Gandhi, KS (1993) A model for static foam drainage. In: Chemical Engineering Science, 48 (3). pp. 455-465.

Bhavaraju, Shrihari SR and Modak, Jayant M and Kumar, R and Gandhi, KS (1993) Dissolution of Sulphur Particles by Thiobaci//us ferrooxidans: Substrate for Unattached Cells. In: Biotechnology and Bioengineering, 41 (6). pp. 612-616.

Ramani, MV and Kumar, R and Gandhi, KS (1993) Drainage and separation factors for static foams containing agglomerates of microbial cells. In: Chemical Engineering Science, 48 (10). pp. 1819-1831.

Nambiara, DKR and Dasa, TR and Gandhi, KS and Kumar, R (1992) A new model for the breakage frequency of drops in turbulent stirred dispersions. In: Chemical Engineering Science, 47 (12). 2989 -3002.

Kumar, Sanjeev and Kumar, R and Gandhi, KS (1992) A multi-stage model for drop breakage in stirred vessels. In: Chemical Engineering Science, 47 (5). pp. 971-980.

Kumar, Sanjeev and Kumar, R and Gandhi, KS (1992) A multi-stage model for drop breakage in stirred vessels. In: Chemical Engineering Science, 47 (5). pp. 971-980.

Gupta, Alok and Gupta, SK and Gandhi, KS and Mehta, MH and Padh, MR and Sonic, AV and Ankleswaria, BV (1992) Modeling Of Hydrolytic Polymerization In A Semibatch Nylon 6 Reactor. In: Chemical Engineering Communications, 113 . pp. 63-69.

Niyogi, Debdarsan and Kumar, R and Gandhi, KS (1992) Modeling of bubble-size distribution in free rise polyurethane foams. In: AIChE Journal, 38 (8). pp. 1170-1184.

*, Shrihari and Kumar, R and Gandhi, KS and Natarajan, KA (1991) Role of cell attachment in leaching of chalcopyrite mineral by Thiobacillus ferrooxidans. In: Applied Microbiology and Biotechnology, 36 (2). pp. 278-282.

Nambiar, DKR and Kumar, R and Gandhi, KS (1990) Breakage and coalescence of drops in turbulent stirred dispersions. In: Sadhana : Academy Proceedings in Engineering Sciences, 15 (Part 2). pp. 73-103.

Shrihari, * and Kumar, R and Gandhi, KS (1990) Modelling of Fe2 + oxidation by Thiobacillus ferrooxidans. In: Applied Microbiology and Biotechnology, 33 (5). pp. 524-528.

Gandhi, KS and Kumar, R (1990) An elongational flow model for drop breakage in stirred turbulent dispersions. In: Chemical Engineering Science, 45 (9). pp. 2998-3003.

Koshy, Abraham and Kumar, R and Gandhi, KS (1989) Effect of drag-reducing agents on drop breakage in stirred dispersions. In: Chemical Engineering Science, 44 (10). pp. 2113-2120.

Gandhi, KS (1988) Gandhi,Mahatma And The Working Scientist - A Reconciliation. In: Current Science (Bangalore), 57 (24). pp. 1313-1316.

Koshy, Abraham and Das, TR and Kumar, R and Gandhi, KS (1988) Breakage of viscoelastic drops in turbulent stirred dispersions. In: Chemical Engineering Science, 43 (10). pp. 2625-2631.

Sujatha, K and Das, TR and Kumar, R and Gandhi, KS (1988) Permeation of gases through liquid films. In: Chemical Engineering Science, 43 (6). pp. 1261-1268.

Srinivasan, J and Kumar, R and Gandhi, KS (1987) A Theory for the Enhancement of the Photoacoustic Signals by Volatile Liquids. In: Applied Physics B: Lasers and Optics, 43 (1). pp. 35-41.

Bhaskarwar, Ashok N and Kumar, R and Gandhi, KS (1987) Mass transfer accompanied by a chemical reaction in an emulsion foam bed reactor. In: AIChE Journal, 33 (2). pp. 331-335.

Lagisetty, JS and Das, PK and Kumar, R and Gandhi, KS (1986) Breakage of viscous and non-Newtonian drops in stirred dispersions. In: Chemical Engineering Science, 41 (1). pp. 65-72.

Editorials/Short Communications

Nambiar, DKR and Gandhi, KS and Kumar, R and Das, TR (1994) A two-zone model of breakage frequency of drops in stirred dispersions. In: Chemical Engineering Science, 49 (13). 2194 -2198.

Kumar, Sanjeev and Kumar, R and Gandhi, KS (1993) A simplified procedure for predicting dmax in stirred vessels. In: Chemical Engineering Science, 48 (17). pp. 3092-3096.

Kumar, Sanjeev and Kumar, R and Gandhi, KS (1991) Influence of the wetting characteristics of the impeller on phase inversion. In: Chemical Engineering Science, 46 (9). pp. 2365-2367.

This list was generated on Wed Oct 22 10:46:23 2014 IST.