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Number of items: 100.

Chauhan, Shivendra Singh and Chiney, Abhinandan and Kumar, Sanjeev (2012) On the solution of bivariate population balance equations for aggregation: X-discretization of space for expansion and contraction of computational domain. In: Chemical Engineering Science, 70 . pp. 135-145.

Kumar, Sanjeev and Briesen, Heiko (2012) Population balances in the league of mass, momentum, and energy balances. In: Chemical Engineering Science, 70 . pp. 1-3.

Ganesan, Sashikumaar and Tobiska, Lutz (2012) An operator-splitting finite element method for the efficient parallel solution of multidimensional population balance systems. In: Chemical Engineering Science, 69 (1). pp. 59-68.

Patil, Pramod D and Kumar, Sanjeev (2011) Continued self-similar breakup of drops in viscous continuous phase in agitated vessels. In: Chemical Engineering Science, 66 (20). pp. 4932-4935.

Nandanwar, Mahendra N and Kumar, Sanjeev (2008) A new discretization of space for the solution of multi-dimensional population balance equations: Simultaneous breakup and aggregation of particles. In: Chemical Engineering Science, 63 (15). pp. 3988-3997.

Singh, Varsha and Gupta, GS and Sarkar, S (2007) Study of gas cavity size hysteresis in a packed bed using DEM. In: Chemical Engineering Science, 62 (22). pp. 6102-6111.

Madras, Giridhar and McCoy, Benjamin J (2007) Kinetics and dynamics of gelation reactions. In: Chemical Engineering Science, 62 (18-20). pp. 5257-5263.

Chakraborty, Jayanta and Kumar, Sanjeev (2007) A new framework for solution of multidimensional population balance equations. In: Chemical Engineering Science, 62 (15). pp. 4112-4125.

Singh, V and Gupta, GS (2006) A discrete model for non-wetting liquid flow from a point source in a packed bed under the influence of gas flow. In: Chemical Engineering Science, 61 (20). pp. 6855-6866.

Singh, Reetu and Kumar, Sanjeev (2006) Effect of mixing on nanoparticle formation in micellar route. In: Chemical Engineering Science, 61 (1). pp. 192-204.

Sarkar, Debasis and Modak, Jayant M (2005) Pareto-optimal solutions for multi-objective optimization of fed-batch bioreactors using nondominated sorting genetic algorithm. In: Chemical Engineering Science, 60 (2). pp. 481-492.

Madras, Giridhar and McCoy, Benjamin J (2004) Temperature effects on the transition from nucleation and growth to Ostwald ripening. In: Chemical Engineering Science, 59 (13). pp. 2753-2765.

Sivalingam, G and Madras, Giridhar (2004) Oxidative degradation of poly (vinyl acetate) and poly ($\varepsilon$-caprolactone) and their mixtures in solution. In: Chemical Engineering Science, 59 (7). pp. 1577-1587.

Deshpande, Kiran B and Kumar, Sanjeev (2003) A new characteristic of liquid–liquid systems—inversion holdup of intensely agitated dispersions. In: Chemical Engineering Science, 58 (16). pp. 3829-3835.

Sarkar, Debasis and Modak, Jayant M (2003) ANNSA: a hybrid artificial neural network/simulated annealing algorithm for optimal control problems. In: Chemical Engineering Science, 58 (14). pp. 3131-3142.

McCoy, Benjamin J and Madras, Giridhar (2003) Analytical solution for a population balance equation with aggregation and fragmentation. In: Chemical Engineering Science, 58 (13). pp. 3049-3051.

Madras, Giridhar and McCoy, Benjamin J (2003) Continuous distribution theory for Ostwald ripening: comparison with the LSW approach. In: Chemical Engineering Science, 58 (13). pp. 2903-2909.

Sivalingam, G and Chattopadhyay, S and Madras, G (2003) Enzymatic degradation of poly ($\epsilon$-caprolactone), poly(viny l acetate)and their blends bylipases. In: Chemical Engineering Science, 58 (13). pp. 2911-2919.

Sarka, Debasis and Modak, Jayant M (2003) Optimisation of fed-batch bioreactors using genetic algorithms. In: Chemical Engineering Science, 58 (11). pp. 2283-2296.

Madras, Giridhar and McCoy, Benjamin J (2002) Transition from nucleation and growth to Ostwald ripening. In: Chemical Engineering Science, 57 (18). pp. 3809-3818.

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.

Kumaran, V and Jariwala, SK and Hussain, S (2001) Rheology of a lamellar liquid crystalline phase using the lattice Boltzmann simulation technique. In: Chemical Engineering Science, 56 (19). pp. 5663-5673.

Sengupta, S and Modak, JM (2001) Optimization of fed-batch bioreactor for immobilized enzyme processes. In: Chemical Engineering Science, 56 (11). pp. 3315-3325.

McCoy, Benjamin J and Madras, Giridhar (2001) Discrete and continuous models for polymerization and depolymerization. In: Chemical Engineering Science, 56 (8). pp. 2831-2836.

Chanda, Manas and Rempel, Garry L (1999) Gel-coated ion-exchange resin: A new kinetic model. In: Chemical Engineering Science, 54 (17). pp. 3723-3733.

Kumar, Sanjeev and Ganvir, Vivek and Satyanand, C and Kumar, R and Gandhia, KS (1998) Alternative mechanisms of drop breakup in stirred vessels. In: Chemical Engineering Science, 53 (18). pp. 3269-3280.

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.

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.

Kumar, Anand R and Modak, Jayant M (1997) Transient analysis of mammalian cell growth in hollow fibre bioreactor. In: Chemical Engineering Science, 52 (12). pp. 1845-1860.

Mohan, LS and Nott, PR and Rao, KK (1997) Fully developed flow of coarse granular materials through a vertical channel. In: Chemical Engineering Science, 52 (6). pp. 913-933.

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.

Basak, Tanmay and Rao, Kesava K and Bejan, Adrian (1996) A model for heat transfer in a honey bee swarm. In: Chemical Engineering Science, 51 (3). pp. 387-400.

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.

Rajagopalan, S and Modak, Jayant M (1995) Evaluation of relative growth limitation due to depletion of glucose and oxygen during fungal growth on a spherical solid particle. In: Chemical Engineering Science, 50 (5). pp. 803-811.

Murthy, MS (1994) Theory of crystal growth in phase transformations: precipitation of barium sulphate. In: Chemical Engineering Science, 49 (14). 2389-2393 .

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.

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 .

Dasappa, S and Paul, PJ and Mukunda, HS and Shrinivasa, U (1994) The gasification of wood-char spheres in CO2---N2 mixtures: analysis and experiments. In: Chemical Engineering Science, 49 (2). pp. 223-232.

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 (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.

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.

Govindarao, Venneti MH and Ramrao, Kandiraju VS and Rao, Ammavajjala VS (1992) Structural characteristics of packed beds of low aspect ratio. In: Chemical Engineering Science, 47 (8). pp. 2105-2109.

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.

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.

Jyotsna, R and Rao, Kesava K (1991) Steady incompressible flow of cohesionless granular materials through a wedge-shaped hopper: Frictional 14kinetic solution to the smooth wall, radial gravity problem. In: Chemical Engineering Science, 46 (8). pp. 1951-1967.

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.

Bhaskarwar, Ashok N and Desai, Dilip and Kumar, R (1990) General model of a foam bed reactor. In: Chemical Engineering Science, 45 (5). pp. 1151-1159.

Govindarao, Venneti MH and Subbanna, Manjunath and Rao, Ammavajjala VS and Ramrao, Kandiraju VS (1990) Voidage profile in packed beds by multi-channel model: effects of curvature of the channels. In: Chemical Engineering Science, 45 (1). 362-364 .

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.

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.

Muralidhar, Ramachandran and Ramkrishna, Doraiswami and Das, Parichay K and Kumar, Rajinder (1988) Coalescence of rigid droplets in a stirred dispersion-II. Band-limited force fluctuations. In: Chemical Engineering Science, 43 (7). pp. 1559-1568.

Koshy, Abraham and Das, TR and Kumar, R (1988) Effect of surfactants on drop breakage in turbulent liquid dispersions. In: Chemical Engineering Science, 43 (3). pp. 649-654.

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.

Govindarao, VMH and Ramrao, KVS (1988) Prediction of location of particles in the wall region of a randomly packed bed of spheres. In: Chemical Engineering Science, 43 (9). pp. 2544-2545.

Prakash, Ravi J and Rao, Kesava K (1988) Steady compressible flow of granular materials through a wedge-shaped hopper: The smooth wall, radial gravity problem. In: Chemical Engineering Science, 43 (3). pp. 479-494.

Das, Parichay K and Kumar, Rajinder and Ramkrishna, Doraiswami (1987) Coalescence of drops in stirred dispersion. A white noise model for coalescence. In: Chemical Engineering Science, 42 (2). pp. 213-220.

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.

Yaparpalvi, R and Das, PK and Mukherjee, AK and Kumar, R (1986) Drop Formation under Pulsed Conditions. In: Chemical Engineering Science, 41 (10). pp. 2547-2553.

Bhaskarwar, Ashok N and Kumar, R (1986) Oxidation of sodium sulphide in the presence of fine activated carbon particles in a foam bed contactor. In: Chemical Engineering Science, 41 (2). 399 -404.

Das, TR and Bandopadhyay, A and Parthasarathy, R and Kumar, R (1985) Gas-liquid interfacial area in stirred vessels: The effect of an immiscible liquid phase. In: Chemical Engineering Science, 40 (2). pp. 209-214.

Lakshmana, C and Chanda, M (1985) Multiplicity in effectiveness factorâ redox kinetics. In: Chemical Engineering Science, 40 (6). pp. 1027-1029.

Desai, Dilip and Kumar, R (1985) Some experimental observations on recirculating semi-batch foam columns. In: Chemical Engineering Science, 40 (7). pp. 1305-1308.

Desai, Dilip and Kumar, Rajinder (1984) Liquid overflow from vertical co-current foam columns. In: Chemical Engineering Science, 39 (11). pp. 1559-1570.

Bhaskarwar, Ashok N and Kumar, R (1984) Oxidation Of Sodium Sulfide In A Foam Bed Contactor. In: Chemical Engineering Science, 39 (9). pp. 1393-1399.

Bhaskarwar, Ashok N and Kumar, R (1984) Oxidation of sodium sulphide in a foam bed contactor. In: Chemical Engineering Science, 39 (9). pp. 1393-1399.

Desai, Dilip and Kumar, Rajinder (1983) Liquid Holdup in Semi-Batch Cellular Foams. In: Chemical Engineering Science, 38 (9). pp. 1525-1534.

Desai, Dilip and Kumar, Rajinder (1982) Flow through a plateau border of cellular foam. In: Chemical Engineering Science, 37 (9). pp. 1361-1370.

Rao, Rajeswara T and Kumar, R (1982) An experimental study of oxidation of zinc sulphide pellets. In: Chemical Engineering Science, 37 (7). pp. 987-996.

Biswas, Jyotirmay and Kumar, Rajinder (1981) Mass transfer with chemical reaction in a foam bed contactor. In: Chemical Engineering Science, 36 (9). pp. 1547-1556.

Narsimhan, G and Anath, MS (1981) Modified design procedure for a sparger reactor sequence. In: Chemical Engineering Science, 36 (1). pp. 212-213.

Patnaik, LM and Sarma, IG and Viswanadham, N (1980) Design of single variable controllers for ammonia reactors. In: Chemical Engineering Science, 35 (3). pp. 754-756.

Balakrishna, M and Bhat, MS (1980) Heat transfer studies in agitated vessels. In: Chemical Engineering Science, 35 (6). pp. 1486-1494.

Narsimhan, G and Ananth, MS (1980) Steady state design of a sequence of sparger reactors. In: Chemical Engineering Science, 35 (6). pp. 1460-1462.

Bhattacharya , A and Deshpande, PK (1979) Analysis of an axially irradiated cylindrical photoreactor—I. plug flow model. In: Chemical Engineering Science, 34 (1). pp. 145-148.

Venneti, MH and Govindarao, * and Lekshminarayanan, H (1979) Convective mass transfer with surface reaction in multiparticle systems of spheres at low Reynolds and high Peclet numbers. In: Chemical Engineering Science, 34 (12). 1415 -1417.

Verneker, VR Pai and Kishore, K and Kannan, MP (1977) Sublimation and thermal decomposition of ammonium perchlorate. In: Chemical Engineering Science, 32 (9). pp. 1114-1115.

Narsimhan, G and Sundaram, KM (1975) Catalyst effectiveness factor for redox model kinetic equation. In: Chemical Engineering Science, 30 (11). pp. 1425-1428.

Murthy, MS and Rajamani, K (1974) Kinetics of vapour phase oxidation of furfural on vanadium catalyst. In: Chemical Engineering Science, 29 (2). pp. 601-609.

Murthy, MS and Rajamani, K (1974) Kinetics of vapour phase oxidation of furfural on vanadium catalyst. In: Chemical Engineering Science, 29 (2). pp. 601-609.

Subramanian, P and Murthy, MS (1974) Mechanism of vapour phase oxidation of anthracene over cobalt molybdate catalyst. In: Chemical Engineering Science, 29 (1). pp. 25-30.

Subramanian, P and Murthy, MS (1974) Mechanism of vapour phase oxidation of anthracene over cobalt molybdate catalyst. In: Chemical Engineering Science, 29 (1). pp. 25-30.

Narsimhan, G (1973) Control of steady state through concentration signal. In: Chemical Engineering Science, 28 (11). pp. 2102-2105.

Narasimhan, G (1973) Intrinsic kinetics of trickle bed reactors. In: Chemical Engineering Science, 28 (3). pp. 978-979.

Kumar, R (1971) A unified approach to bubble and drop formation. In: Chemical Engineering Science, 26 (2). pp. 177-184.

Nagendra, HR and Tirunarayanan, MA and Ramachandran, A (1970) Free convection heat transfer in vertical annuli. In: Chemical Engineering Science, 25 (4). pp. 605-610.

Bowonder, B and Kumar, R (1970) Studies in bubble formation - IV: bubble formation at porous discs. In: Chemical Engineering Science, 25 (1). pp. 25-32.

Nagendra, HR and Tirunarayanan, MA (1970) Laminar film condensation from nonisothermal vertical flat plates. In: Chemical Engineering Science, 25 (6). pp. 1073-1079.

Khurana, AK and Kumar, Rajinder (1969) Studies in bubble formation — III. In: Chemical Engineering Science, 24 (11). pp. 1711-1723.

Nagendra, HR and Tirunarayanan, MA and Ramachandran, A (1969) Free convection heat transfer from vertical cylinders and wires. In: Chemical Engineering Science, 24 (9). pp. 1491-1495.

Ramakrishnan, S and Kumar, R and Kuloor, NR (1969) Studies in bubble formation—I bubble formation under constant flow conditions. In: Chemical Engineering Science, 24 (4). pp. 731-747.

Satyanarayan, A and Kumar, R and Kuloor, NR (1969) Studies in bubble formation—II bubble formation under constant pressure conditions. In: Chemical Engineering Science, 24 (4). pp. 749-761.

Ibrahim, SH and Kuloor, NR (1967) A constant cross-section variable-area flowmeter. In: Chemical Engineering Science, 22 (2). pp. 243-244.

Narasinga Rao, EVL and Kumar, R and Kuloor, NR (1966) Drop formation studies in liquid—liquid systems. In: Chemical Engineering Science, 21 (10). pp. 867-880.

Ibrahim, SHI and Kuloor, NR (1962) Diffusion coefficients of ethanolamines. In: Chemical Engineering Science, 17 (12). pp. 1087-1088.

This list was generated on Mon Jul 4 01:57:15 2022 IST.