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Dolai, A and Pramanik, S and Badhuk, P and RV, R (2022) Nonlinear Dynamic Analysis of the Transition from MILD Regime to Thermoacoustic Instability in a Reverse Flow Combustor. In: Combustion Science and Technology .
Varunkumar, S and Rajan, NKS and Mukunda, HS (2013) Universal flame propagation behavior in packed bed of biomass. In: Combustion Science and Technology, 185 (8). pp. 1241-1260.
Agarwal, Krishna Kant and Krishna, S and Ravikrishna, RV (2013) Mixing enhancement in a compact trapped vortex combustor. In: Combustion Science and Technology, 185 (3). pp. 363-378.
Agarwal, Krishna Kant and Ravikrishna, RV (2012) Validation of a Modified Eddy Dissipation Concept Model for Stationary and Nonstationary Turbulent Diffusion Flames. In: Combustion Science and Technology, 184 (2). pp. 151-164.
Agarwal, Krishna Kant and Ravikrishna, RV (2011) Experimental and Numerical Studies in a Compact Trapped Vortex Combustor: Stability Assessment and Augmentation. In: Combustion Science and Technology, 183 (12). pp. 1308-1327.
Varunkumar, S and Rajan, NKS and Mukunda, HS (2011) Single Particle and Packed Bed Combustion in Modern Gasifier Stoves—Density Effects. In: Combustion Science and Technology, 183 (11). pp. 1147-1163.
Kumar, Sudarshan and Paul, PJ and Mukunda, HS (2007) Prediction of flame liftoff height of diffusion/partially premixed jet flames and modeling of mild combustion burners. In: Combustion Science and Technology, 179 (10). pp. 2219-2253.
Mukunda, HS and Basani, J and Shravan, HM and Philip, B (2007) Smoldering combustion of "incense" sticks - Experiments and modeling. In: Combustion Science and Technology, 179 (6). pp. 1113-1129.
Ravikrishna, RV and Naik, Sameer V and Cooper, CS and Laurendeau, Normand M (2004) Quantitative Laser-Induced Fluorescence Measurements and Modeling of Nitric Oxide in High-Pressure (6-15 atm) Counterflow Diffusion Flames. In: Combustion Science and Technology, 176 (1). pp. 1-21.
Rajanikanth, BS and Kinoshita, K and Yanagihara, K and Mizuno, A and Shimizu, K (1998) Non-Thermal Plasma Applications at Very Low Temperature. In: Combustion Science and Technology, 133 (1-3). pp. 49-63.
Mizuno, A and Rajanikanth, BS and Shimizu, K and Kinoshita, K and Yanagihara, K and Okumoto, M and Katsura, S (1995) Non-thermal plasma applications at Very Low Temperature. In: Combustion Science and Technology , 133 (1-3). pp. 49-63.
Mukunda, HS (1993) Stretch Effects in High Speed Reacting Mixing Layers. In: Combustion Science and Technology, 89 (1-4). pp. 285-290.
Jain, Sampat R and Mimani, Tanu and Vittal, Jagadese J (1989) Chemical Aspects of the Synergistic Hypergolic Ignition in Hybrid Systems with N2O4 as Oxidizer. In: Combustion Science and Technology, 64 (1-3). pp. 29-41.
Goyal, G and Paul, PJ and Mukunda, HS and Deshpande, SM (1988) Time Dependent Operator-split and Unsplit Schemes for One Dimensional Premixed Flames. In: Combustion Science and Technology, 60 (1-3). pp. 167-189.
Bhashyam, AT and Deshpande, SM and Mukunda, HS and Goyal, G (1986) A Novel Operator-Splitting Technique for One-Dimensional Laminar Premixed Flames. In: Combustion Science and Technology, 46 (3-6). 223 -247.
Verneker, Venkatesh Pai R and Myneni, Saini and Rao, Josyula Mohana R (1985) Effect of Prior Gamma Irradiation on Thermal Decomposition, Ignition and Combustion of Coal. In: Combustion Science and Technology, 44 (1-2). pp. 97-102.
Ramachandra, A and Raghunandan, BN (1984) nvestigations on the Stability and Extinction of a Laminar Diffusion Flame Over a Porous Flat Plate. In: Combustion Science and Technology, 36 (3-4). pp. 109-121.
Ramachandra, A and Raghunandan, BN (1984) An Analysis of a Boundary Layer Diffusion Flame Over a Porous Flat Plate in a Confined Flow. In: Combustion Science and Technology, 38 (1-2). pp. 59-73.
Kishore, K and Mohandas, K and Annakutty, KS (1983) Is Gasification Rate Controlling Step in Polymer Ignition? In: Combustion Science and Technology, 31 (3). pp. 183-194.
Ramachandra, A and Raghunadan, BN (1983) On the Velocity Overshoot in a Laminar Boundary Layer Diffusion Flame. In: Combustion Science and Technology, 33 (5&6). pp. 309-313.
Seetharamacharyulu, D and Verneker, VR Pai and Mallya, RM (1982) Defect Sensitization of Combustion and Thermal Decomposition of Ammonium Perchlorate: Effect of Pelletizing Pressure and Dwell Time. In: Combustion Science and Technology, 28 (1-2). pp. 41-53.
Pai, Verneker VR and Rao, Rama Mohana J (1982) Effect of Prior Ultraviolet Irradiation on Thermal Decomposition and Ignition of Coal. In: Combustion Science and Technology, 29 (1-2). pp. 95-100.
Kishore, K and Ravindran, K and Sankaralingam, S (1982) Intermediary Analysis in Propellant Decomposition. In: Combustion Science and Technology, 27 (2). pp. 155-157.
Seetharamacharyulu, D and Verneker, VR Pai and Mallya, RM (1981) Combustion and Thermal Decomposition of a Binary Oxidiser System: Ammonium Perchlorate-Potassium Perchlorate. In: Combustion Science and Technology, 27 (1-2). pp. 19-30.
Marathe, AG and Prabhakar, V and Jain, VK (1980) Studies on Hydrogen-Bromine Reaction Scheme. In: Combustion Science and Technology, 21 (3-4). 181 -182.
Kishore, K and Verneker, VR Pai (1979) Effect of Storage Temperatures on the Mechanical Properties of the Composite Solid Propellants. In: Combustion Science and Technology, 19 (3-4). pp. 107-118.
Mukunda, HS (1978) A Comprehensive Theory of Erosive Burning in Solid Rocket Propeilants. In: Combustion Science and Technology, 18 (3-4). 105-118 .
Verneker, VR Pai and Rajalekshmi, VK and Jain, SR (1977) Thermal Decomposition Studies on Ammonium Perchlorate—Polybutadiene Composite Propellant. In: Combustion Science and Technology, 17 (3-4). 99 -104.
Mukunda, HS and Subhananda, A and Rao, M Sambashiva (1977) Flow Studies in Non Circular Tubes with Wall Injection. In: Combustion Science and Technology, 15 (1-2). pp. 21-29.
Marathe, AG and Mukunda, HS (1977) Some Studies on Hydrogen-Oxygen Diffusion Flame. In: Combustion Science and Technology, 15 (1-2). pp. 49-63.
Mukunda, HS and Raghunandan, BN (1974) Rocket Propellant Combustion Studies in a Constant Volume Bomb. In: Combustion Science and Technology, 9 (3-4). 149 -157.
