1. Modeling of effect of double-layer capacitance and failure of lead-acid batteries in HRPSoC application
    K. S. Gandhi
    J. Electrochem. Soc., 164(11), E3092-101, (2017). DOI: 10.1149/2.0101711jes
    Errors: In eqs. (8) and (10), the denominator should be just D and not 1+D

  2. A strategy for obtaining bi-modal bubble size distribution in water blown polyurethane foams
    Debdarsan Niyogi, Rajinder Kumar, Kandukuri S. Gandhi
    Ind. Engg Chem. & Res., 54(42), 10520-10529, (2015).

  3. Modeling of effect of nucleation rate and electrodes' resistance on discharge characteristics of lead-acid batteries
    K. S. Gandhi
    J. Electrochem. Soc., 162(8), A1506-A1515 (2015).

  4. Role of electrical resistance of electrodes in modeling of discharging and charging of flooded lead-acid batteries
    K. S. Gandhi
    J. Power Sou., 277,124-130 (2015).

  5. Modeling of Bubble-Size Distribution in Water and Freon Co-Blown Free Rise Polyurethane Foams
    Debdarsan Niyogi, Rajinder Kumar, Kandukuri S. Gandhi
    J. Appl. Polym. Sci., 131(18), 9098-9110 (2014).

  6. Use of Fick's Law and Maxwell--Stefan Equations in Computation of Multicomponent Diffusion
    K.S. Gandhi
    A.I.Ch.E. Journal, 58 (11), 3601-05, (2012)

  7. Storage of electrical energy
    K.S. Gandhi
    Indian Chemical Engineer, 52(1), 51-75 (2010)
    Text of Prof HL Roy memorial lecture delivered in CHEMCON 2009, Visakhapatnam

  8. Modeling of freezing phenomena induced by chemical reactions
    K.S. Gandhi
    Ind. Engg Chem.& Res., 48(21), 9755-9762 (2009)

  9. Simplified mathematical model for effects of freezing on the low-temperature performance of the lead-acid battery
    K.S. Gandhi, A.K. Shukla, S.K. Martha, and S.A. Gaffoor
    J. Electrochem. Soc., 156(3), A238-A245 (2009)

  10. Thermal properties of nanofluids: Controversy in the making?
    K.S. Gandhi
    Current Science, 92(6), 717-718 (2007).

  11. Revising Curricula in Chemical Engineering Education in India: A Few Suggestions
    K.S. Gandhi, and R. Kumar
    Indian Chemical Engineer, 49(4), 451-457 (2007)

  12. Enhancing the Hydrophobic Effect in Confined Water Nanodrops
    Palla Vnkata Gopala Rao, K.S. Gandhi, and K.G. Ayappa
    Langmuir, 23, 12795-12798 (2007)

  13. Modeling of formation of gold nanoparticles by Citrate Method
    Sanjeev Kumar, K.S. Gandhi, and R. Kumar
    Ind. Engg Chem.& Res., 46, 3138-3136 (2007)

  14. Nanoscience and Technology: A Chemical Engineer's Perspective
    K.S. Gandhi
    Indian Chemical Engineer, 49, 251-266 (2007)

  15. Ion exchange in reverse micelles
    Sandeep Pal, G. Vishal, K.S. Gandhi and K.G. Ayappa
    Langmuir, 21, 767-778, (2005)

  16. Turbulence and dispersion
    K.S. Gandhi
    Resonance, 9(10), 48--61 (2004)

  17. Theory of rate of solubilization in surfactant solutions
    D. Sailaja, K. Lakshmi Suhasini, S. Kumar and K.S. Gandhi
    Langmuir, 19, 4014-4026, (2003)

  18. Modelling of protein mixture separation in a batch foam column
    S. Bhattacharjee, R. Kumar and K.S. Gandhi
    Chem. Engg Sci., 56, 5499-5510, (2001)

  19. Platinum-based alloys as oxygen-reduction catalysts for solid-polymer-electrolyte direct methanol fuel cells
    M. Neergat, A.K. Shukla, and K.S. Gandhi
    J. Appled Electrochem., 31 , 373-378 (2001)

  20. Modeling of CaCO3 nanoparticle formation during overbasing of lubricating oil additives
    R. Bandyopadhyaya R. Kumar and K.S. Gandhi
    Langmuir, 17, 1015-1029, (2001)

  21. Simulation of precipitation reactions in reverse micelles
    R. Bandyopadhyaya R. Kumar and K.S. Gandhi
    Langmuir, 16,(18), 7139-7149 (2000)

  22. A 5W liquid-feed solid-polymer-electrolyte direct methanol fuel cell with stainless steel
    A.K. Shukla, M.K. Ravikumar M. Neergat and K.S. Gandhi
    J. Appled Electrochem., 29, 129--132 (1999)

  23. Water blown free rise polyurethane foams
    D. Niyogi, R. Kumar and K.S. Gandhi
    Polym. Engg. Sci., 39(1), 199-209 (1999)

  24. Alternative mechanisms of drop breakup in stirred vessels
    S. Kumar, V. Ganvir, C. Satyanand, R. Kumar, K.S. Gandhi
    Chem. Engg. Sci., 53(18), 3269--3280 (1998)

  25. Modelling of sonochemical oxidation of CCl4 in aqueous solutions
    R. Rajan, R. Kumar and K.S. Gandhi
    Environ. Sci. & Tech., 32, 1128--1133 (1998)

  26. Direct methanol fuel cells for vehicular applications
    A.K. Shukla, M.K. Ravikumar and K.S. Gandhi
    J. Solid State Electrochem., 2, 117--122 (1998)

  27. Modelling of sonochemical oxidation of water-KI-CCl4 System
    R. Rajan, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 53(2), 255--271 (1998)

  28. Flow of liquid/liquid dispersion in a Hele-Shaw cell
    S. Basu, K.S. Gandhi and R. Kumar
    J. Chem. Engg of Japan, 30(5), 852--866 (1997)

  29. Sonochemical Reaction Engineering
    Text of C.K. Murthy Memorial Lecture 1997 delivered on the occasion of the Golden
    Jubilee celebration of I.I.Ch.E at Chennai on 26 july 1997

    K.S. Gandhi
    Indian Chem. Engr, (B), 39(3), 239--252 (1997)

  30. Prediction of separation factor in foam separation of protein
    Samita Bhattacharjee, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 52(24), 4625--4636 (1997)

  31. Detachment of a coalesced phase drop from a circular obstacle in a Hele-Shaw flow cell
    S. Basu, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 52(16), 2849--2855 (1997)

  32. Modelling of precipitation in reverse micellar systems
    Rajdip Bandyopadhyaya, R. Kumar, K.S. Gandhi, and D. Ramkrishna
    Langmuir, 13(14), 3610--3620 (1997)

  33. Precipitation in small systems --II. Mean field equations more effective than population balance
    S. Manjunath, K.S. Gandhi, R. Kumar and D. Ramkrishna
    Chem. Engg. Sci., 51(19), 4423--4436 (1996)

  34. Breakage of an inviscid drop due to a pressure fluctuation applied on its surface
    Shreekumar, R. Kumar and K.S. Gandhi
    J. Fluid Mech., 328, 1--17 (1996)

  35. A new model for drainage of static foams
    Kairali Podual, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 51,(9) 1393--1403 (1996)

  36. Sonochemical Reaction Engineering
    K.S. Gandhi and R. Kumar
    Sadhana, 19,(6) 1055--1076 (1995)

  37. Some basic aspects of reaction engineering of preicipitation process
    K. S. Gandhi, R. Kumar and Doraiswami Ramkrishna
    Ind. Engng. Chem. Res., 34(10), 3223--3230 (1995)

  38. Analysis of ultrasonically enhanced hydrogen evolution for Zn- NiCl2 system
    S. Banerjee, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 50(15), 2409--2415 (1995)

  39. A network model of static foam drainage
    M. Gururaj, R. Kumar and K.S. Gandhi
    Langmuir, 11, 1381--1391 (1995)

  40. Dissolution of particles of Pyrite mineral by direct attachment of Thiobacillus ferrooxidans
    Shrihari, Jayant M. Modak, R. Kumar and K.S. Gandhi
    Hydrometallurgy, 38(2), 175--187 (1995)

  41. A two zone model of breakage frequency of drops in stirred dispersions
    D.K.R. Nambiar, R. Kumar, T.R. Das and K.S. Gandhi
    Chem. Engg. Sci., 49, 2194--2198 (1994)

  42. Precipitation in small systems - I. Stochastic analysis
    S. Manjunath, R. Kumar, K.S. Gandhi and Doraiswami Ramkrishna
    Chem. Engg. Sci., 49, 1451--1463 (1994)

  43. Modeling of a batch sonochemical reactor
    D.V. Prasad Naidu, R. Rajan, R. Kumar, K.S. Gandhi, V.H. Arakeri and S. Chandrasekaran
    Chem. Engg. Sci., 49, 877--888 (1994)

  44. A simplified procedure for predicting dmax in stirred vessels
    Sanjeev Kumar, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 48, 3092--3096 (1993)

  45. Desorption from concentrated polymer solutions in good and poor solvents
    Sripada P. Rao, Kandukuri S. Gandhi, Davuluri P. Rao and Rakesh P. Singh
    Ind. & Engg. Chem. Res., 32, 2069--2076 (1993)

  46. Dissolution of sulfur particles by Thiobacillus Ferrooxidans: substrate for unattached cells
    Shrihari, S.R. Bhavaraju, J.M. Modak, R. Kumar and K.S. Gandhi
    Biotech. & Bioengg., 41, 612--616 (1993)

  47. Drainage and separation factors for static foams containing agglomerates of microbial cells
    M.V. Ramani, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 48, 1819--1831 (1993)

  48. A new model for coalescence efficiency of drops in stirred dispersions
    S. Kumar, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 48, 2025--2038 (1993)

  49. A model for static foam drainage
    M.V. Ramani, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 48, 455--465 (1993)

  50. Modeling of bubble-size distribution in free rise polyureathane foams
    Debdarsan Niyogi, R. Kumar and K.S. Gandhi
    A.I.Ch.E. Journal, 38, 1170--1184 (1992)

  51. A new model for breakage frequency of drops in turbulent stirred dispersions
    D.K.R. Nambiar, R. Kumar, T.R. Das and K.S. Gandhi
    Chem. Engg. Sci., 47, 2989--3002 (1992)

  52. A multistage model for drop breakage in stirred vessels
    S. Kumar, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 47, 971--980, (1992)

  53. Modeling of hydrolytic polymerization in a semibatch Nylon 6 reactor
    Alok Gupta, S.K. Gupta, K.S. Gandhi, M.H. Mehta, M.R. Padh, A.V. Soni and B.V. Ankleswaria
    Chem. Engg. Comm., 113, 63--89 (1992)

  54. Role of cell attachment in leaching of chalcopyrite mineral by Thiobacillus ferrooxidans
    Shrihari, R. Kumar, K.S. Gandhi and K.A. Natarajan
    Appl. Microbiol. and Biotech., 36, 278--282 (1991)

  55. Alternative mechanisms of drop breakage in stirred vessels
    S. Kumar, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 46, 2365--2367 (1991)

  56. Influence of wetting characteristics of the impeller on phase inversion
    S. Kumar, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 46, 2365--2367 (1991)

  57. Breakage and coalescence of drops in stirred turbulent dispersions
    D. K. R. Nambiar, R. Kumar and K.S. Gandhi
    Sadhana, 15, 73--103 (1990)

  58. Modeling of ferrous oxidation by Thiobacillus ferrooxidans
    Shrihari, K.S. Gandhi and R. Kumar
    Appl. Microbiol. and Biotech., 33, 524--528, (1990)

  59. An elongational flow model for drop breakage in stirred turbulent dispersions
    K.S. Gandhi and R. Kumar
    Chem. Engg. Sci., 45, 2998--3001, (1990)

  60. Effect of drag reducing agents on drop breakage in stirred dispersions
    Abraham Koshy, R. Kumar, and K.S. Gandhi
    Chem. Engg. Sci., 44, 2113--2120, (1989)

  61. Permeation of gases through liquid films
    K. Sujatha, T.R. Das, R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 43, 1261--1268, (1988)

  62. Breakage of viscoelastic drops in turbulent stirred dispersions
    A.Koshy, T.R. Das, R. Kumar, K.S. Gandhi
    Chem. Engg. Sci., 43, 2625--2631, (1988)

  63. A theory for enhancement of photoacoustic signal by volatile liquids
    J. Srinivasan, R. Kumar and K.S. Gandhi
    Appl. Phy., A, B43, 35--42 (1987)

  64. Mass transfer accompanied by a chemical reaction in an emulsion foam bed reactor
    A.N. Bhaskarwar, R. Kumar and K.S. Gandhi
    A.I.Ch.E Journal, 33, 331--335 (1987)

  65. Breakage of viscous and non-Newtonian drops in stirred dispersion
    J.S. Lagisetty, P.K. Das and R. Kumar and K.S. Gandhi
    Chem. Engg. Sci., 41, 65--72 (1986)

  66. A model for thermal collapse of tubes: Application to optical glass fibres
    S.K. Das and K.S. Gandhi
    Chem. Engg. Sci., 41, 73--81 (1986)

  67. Effects of unequal reactivity of functional groups on gelation phenomena in polyurethane systems
    S. Mall and K.S. Gandhi
    Polymer, 26, 595--607 (1985)

  68. Modeling of backmixing in continuous polymerization of caprolactam in VK column reactors
    Alok Gupta and Kandukuri S. Gandhi
    Ind. Eng. Chem. Prod. Res. Dev., 24, 327--333 (1985)

  69. Ionomeric interpretation of thickening of polyesters by alkaline earth metal oxides
    K. Balakoteswara Rao and K.S. Gandhi
    J. Poly. Sci.: Chem. Ed., 23, 2135--2150 (1985)

  70. Analysis of products of the thickening reaction between polyesters and magnesium oxide
    K. Blalakoteswara Rao and K.S. Gandhi
    J. Poly. Sci.: Chem. Ed., 23, 2305--2317 (1985)

  71. Calorimetric and other interaction studies on mineral starch adsorption systems
    N.N. Khosla, R.P. Bhagat, K.S. Gandhi and A.K. Biswas
    Colloids and surfaces, 8, 321--336 (1984)

  72. Molecular weight distribution in batch hydrolytic polymerization of caprolactam
    A. Gupta and K.S. Gandhi
    J. Appl. Poly. Sci., 27, 1099--1104 (1982)

  73. Step polymerization with unequal reactivities in a CSTR
    K. Ravindranath and K.S. Gandhi
    Chem. Engg. Sci., 35, 955--962 (1980)

  74. Effect of simultaneous polyaddition reaction on the curing of epoxides
    U.M. Bokare and K.S. Gandhi
    J. Poly. Sci.: Chem. Ed., 18, 857--870 (1980)

  75. Step polymerization with unequal reactivities of functional groups
    K.S. Gandhi and S.V. Babu
    Macromolecules, 13, 791--798 (1980)

  76. Molecular weight distributions in epoxy resins
    K. Ravindranath and K.S. Gandhi
    J. Appl. Poly. Sci., 24, 1115--1123 (1979)

  77. Kinetics of step polymerization with unequal reactivities
    K.S. Gandhi and S.V. Babu
    A.I.Ch.E. Journal, 25, 266--272 (1979)

  78. Rheological properties of glass fiber--reinforced dough moulding compounds
    K.S. Gandhi and R. Burns
    Trans. Soc. Rheol., 20, 489--502 (1976)

  79. Studies on the thickening reaction of polyester resins employed in sheet moulding compounds
    K.S. Gandhi and R. Burns
    J. Poly. Sci.: Chem. Ed., 14, 793--811 (1976)

  80. The thickening reaction and effect of raw materials
    R. Burns, K.S. Gandhi, A.G. Hankin and B.M. Lynskey,
    Plastics & Polymers, 227--235 December (1975)

  81. Solvent effect on the time constant of concentrated polymer solutions,
    Vadlamudi G. Rao and K.S. Gandhi,
    J. Appl. Poly. Sci., 19, 1663--1676 (1975)

  82. Effect of solvent character on polymer entanglements,
    K.S. Gandhi and M.C. Williams,
    J. Appl. Poly. Sci., 16, 2721--2725 (1972)

  83. Solvent effects on the viscosity of moderately concentrated polymer solutions
    K.S. Gandhi and M.C. Williams,
    J. Poly. Sci. Part C, 35, 211--234 (1971)

  84. Calculation methods for complex flow diagrams
    K.S. Gandhi, Suresh Chandra and C.E. Dryden
    Chemical Age of India, 15(11), 1183--1199 (1964)

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