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Prof. V. Raghavan
Department of Mechanical Engineering, IITM

  1. O. P. Korobeinichev, S. Muthu Kumaran, D. Shanmugasundaram, V. Raghavan, S. A. Trubachev, A. A. Paletsky, A. G. Shmakov, R. K. Glaznev, A. A. Chernov & A. G. Tereshchenko, Experimental and Numerical Study of Flame Spread Over Bed of Pine Needles, Fire Technology, 2021, Citations: 0, impact factor: 2.239
  2. A.K. Joshi, A. Kumar, V. Raghavan, S.A. Trubachev, A.G. Shmakov, O.P. Korobeinichev and Praveen Kumar B., Numerical and experimental study of downward flame spread along multiple parallel fuel sheets, Fire Safety Journal, 2021, 125, 103414. Citations: 0, impact factor: 2.764
  3. S. Muthu Kumaran, D. Shanmugasundaram, K. Narayanaswamy and V. Raghavan, Reduced mechanism for flames of propane, n-butane, and their mixtures for application to burners: Development and validation, International Journal of Chemical Kinetics, 2021, 53(6), 731-750. Citations: 0, impact factor: 1.462
  4. S. Muthu Kumaran and V. Raghavan, Numerical study of characteristics of liquefied petroleum gas flames in coflow air, Thermal Science and Engineering Progress, 2020, 20, 100759. Citations: 0
  5. S. Muthu Kumaran and V. Raghavan, Characteristics and soot formation in laminar liquified petroleum gas flames in air crossflow, Progress in Computational Fluid Dynamics, an International Journal, 2021, 21(5), 305-315. Citations: 0, impact factor: 1.048
  6. O.P. Korobeinichev, S.A. Trubachev, A.K. Joshi, A. Kumar, A.A. Paletsky, A.G. Tereshchenko, A.G. Shamkov, R.K. Glaznev, V. Raghavan and A.M. Mebel, Experimental and numerical studies of downward flame spread over PMMA with and without addition of tri phenyl phosphate, Proceedings of the Combustion Institute, 2021, 38(3), 4867-4875. Citations: 1, impact factor: 3.757
  7. D. Shanmugasundaram, S. Muthu Kumaran, S.A. Trubachev, A. Bespalova, O.P. Korobeinichev, A.G. Shmakov and V. Raghavan, Burning characteristics and soot formation in laminar methyl methacrylate pool flames, Combustion Theory and Modelling, 2020, 24( 6), 1153-1178. Citations: 0, impact factor: 1.777
  8. Akhilesh Kumar Sahu, V. Raghavan, B.V.S.S.S. Prasad, Influence of frictional packing limit on hydrodynamics and performance of gas-solid fluidized beds, Korean Journal of Chemical Engineering, 2020, 37, 2368-2383. Citations: 0, impact factor: 3.309
  9. M. Tousif, A. Harish, S. Muthu Kumaran and V. Raghavan, Numerical study of interaction of coal dust with premixed fuel-lean methane-air flames, Advanced Powder Technology, 2020, 31(9), 3833-3844. Citations: 1, impact factor: 4.833
  10. S. Ray and V. Raghavan, Numerical study of evaporation characteristics of biodiesel droplets of Indian origin, Fuel, 2020, 271, 117637. Citations: 2, impact factor: 6.609
  11. S. Muthu Kumaran and V. Raghavan, Experimental Study of Non-Premixed Flames of Liquefied Petroleum Gas and Air in Cross-Flow and the Effects of Fuel Properties on Flame Stability, International Journal of Turbo & Jet-Engines, 2019, 38, 1-8. Citations: 1, impact factor: 1.082
  12. S. Muthu Kumaran, V. Raghavan, Ali. S. Rangwala, A parametric study of spontaneous ignition in large coal stockpiles, Fire Technology, 2020, 56, 1013-1038. Citations: 1, impact factor: 2.239
  13. S. Nair, V. Raghavan, Numerical study of methanol flames in laminar forced convective environment using short kinetics mechanism, Combustion Theory and Modelling, 2019, 24(2), 279-306. Citations: 0, impact factor: 1.777
  14. A.K. Sahu, V. Raghavan, B.V.S.S.S. Prasad, Numerical simulation of gas-solid flows in fluidized bed gasification reactor, Advanced Powder Technology, 2019, 30(12), 3050-3066. Citations: 4, impact factor: 4.833
  15. V. Raghavan, Numerical modeling of evaporation and combustion of isolated liquid fuel droplets - A review, Journal of Indian Institute of Science, 2019, 99(1), 5-23. Citations: 0, impact factor: 1.151
  16. H.R. Rakesh Ranga, O.P. Korobeinichev, V. Raghavan, A.G. Tereshchenko, S.A. Trubachev and A.G. Shmakov, A study of the effects of ullage during the burning of horizontal PMMA and MMA surfaces, Fire and Materials, 2019, 43(3), 241-255, 1-15. Citations: 1, impact factor: 1.22
  17. S. Muthukumaran, O.S. Karve, Y.B Kadam and V. Raghavan, Experimental study of LPG flames in different configurations, ISME Journal of Thermofluids, 2018, 4(1), 36-48.
  18. A. Appadurai and V. Raghavan, Numerical investigations on particle separation in dynamic separators, International Journal of Numerical Methods for Heat and Fluid Flow, 2018, DOI:10.1108/HFF-10-2018-0567
  19. G. Mairinger, R.S. Khare, K. Narayanaswamy, M. Hunyadi-Gall, V. Raghavan, K. Sheshadri, Experimental and computational investigation of the influence of stoichiometric mixture fraction on structure and extinction of laminar, nonpremixed dimethyl ether flames, Combustion Theory and Modelling, 2018, 23(2), 376-386. Citations: 0, impact factor: 1.744
  20. S. Ray, V. Raghavan, and George Gogos, Two-phase transient simulations of evaporation characteristics of two-component liquid fuel droplets at high pressures, International Journal of Multiphase Flows, 2018, 111, 294-309. Citations: 2, impact factor: 2.592
  21. S. Ray, V.V.S. Harsha, and V. Raghavan, Prediction of vapor-liquid equilibrium of ternary system at high pressures, Archives of Thermodynamics, 2018
  22. A. Appadurai and V. Raghavan, Choice of model parameters in turbulent gas-solid flow simulations of particle classifiers, Progress in CFD-an international journal, 2018
  23. K.S. Arsava, V. Raghavan, and A.S. Rangwala, Enhanced oil-spill clean-up using immersed thermally conductive objects, Fire Technology, 2018, 54(6), 1745-1758. Citations: 0, impact factor: 1.483
  24. R.S. Khare, P.S. Senthil, V. Raghavan and K. Narayanaswamy, A comprehensively validated compact mechanism for dimethyl ether oxidation: An experimental and computational study, Combustion and Flame, 2018, 196, 116-128. Citations: 0, impact factor: 4.494
  25. M. Bharath, V. Raghavan, B.V.S.S.S Prasad, and S.R. Chakravarthy, Co-gasification of Indian rice husk and Indian coal with high-ash in bubbling fluidized bed gasification reactor, Applied Thermal Engineering, 2018, 137, 608-615. Citations: 2, impact factor: 3.771
  26. R. Simenthy, V. Raghavan, and S. Tiwari, On dynamic and energy transfer characteristics of flow past transversely oscillating circular cylinder in the wake of stationary cylinder, International Journal of Fluid Mechanics Research, 2018, 45(6), 509-529
  27. G.R. Vamsee, S. Tiwari, T. Sundararajan, and V. Raghavan, Effect of height ratio on wake transition in unsteady flow past isosceles trapezoidal cylinder, International Journal of Fluid Mechanics Research, 2018, 45(6), 531-552
  28. A. Harish, H.R.Rakesh Ranga, A. Babu, and V. Raghavan, Experimental study of flame characteristics and stability regimes of biogas-Air cross flow non-premixed flames, Fuel, 2018, 223, 334-343. Citations: 2, impact factor: 4.908
  29. A. Prabhakar, N. Agarwal, V. Raghavan, and S.K. Das, An experimental study on the effect of coaxial circular disk obstacle on helium jet distribution inside the unventilated enclosure of AIHMS facility, Annals of Nuclear Energy, 2018, 116, 347-359. Citations: 1, impact factor: 1.476
  30. H.R.Rakesh Ranga, O.P. Korobeinichev, A. Harish, V. Raghavan, A. Kumar, I.E. Gerasimov, M.B. Gonchikzhapov, A.G. Tereschenko, S.A. Trubachev, and A.G. Schmakov, Investigation of the structure and spread rate of flames over PMMA slabs, Applied Thermal Engineering, 2018, 130, 477-491. Citations: 9, impact factor: 3.771
  31. A.K. Sahu, V. Raghavan, and B.V.S.S.S Prasad, Temperature effects on hydrodynamics of dense gas-solid flows: Application to bubbling fluidized be reactors, International Journal of Thermal Sciences, 2018, 124, 387-398. Citations: 1, impact factor: 3.361
  32. P.S. Kumar, V. Raghavan, and T. Sundararajan, Experimental study of burning of methanol fed porous spheres in grid generated turbulent field, International Journal of Heat and Mass Transfer, 2017, 114, 354-362. Citations: 0, impact factor: 3.891
  33. A. Prabhakar, N. Agarwal, V. Raghavan, and S.K. Das, Numerical modelling of isothermal release and distribution of helium and hydrogen gasses inside the AIHMS cylindrical enclosure, International Journal of Hydrogen Energy, 2017, 42(22), 15435-15447. Citations: 1, impact factor: 4.229
  34. A. Prabhakar, N. Agarwal, V. Raghavan, and S.K. Das, Experimental Investigation on the Evolution of Stratified Layer of Helium in the unventilated vertical cylindrical enclosure of AIHMS facility under wall temperature induced natural convection, Nuclear Engineering and Design, 2017, 323, 367-375. Citations: 2, impact factor: 1.19
  35. K.V. Kumar, M. Bharath, V. Raghavan, B.V.S.S.S. Prasad, S.R. Chakravarthy and T. Sundararajan, Gasification of High-Ash Indian Coal in Bubbling Fluidized Bed Using Air and Steam-An Experimental Study, Applied Thermal Engineering, 2017, 116, 372-381
  36. A. Prabhakar, N. Agarwal, V. Raghavan, and S.K. Das, Experimental Investigation on Helium Distribution and Stratification in Unventilated Vertical Cylindrical Enclosure-Effect of Jet Release Rates and Total Release Volume, International Journal of Hydrogen Energy, 2016, 41(48), 23213-23228
  37. Shijin, P. K., V. Raghavan and V. Babu, Numerical investigation of flame–vortex interactions in laminar cross-flow non-premixed flames in the presence of bluff bodies, Combustion theory and modelling, 2016, 20 (4), 683-706. Citations: 0, impact factor: 2.23
  38. Sumit Sarma, Aritra Chakraborty, N. M. Manu, T. M. Muruganandam, V. Raghavan and S. R. Chakravarthy, Spatio-temporal Structure of Vertically Spreading Flame over Non-planar PMMA Surfaces, Proceedings of the combustion institute, 2016, In press. Citations: 0, impact factor: 4.12
  39. Xiachuan Shi, Akhilesh Kumar Sahu, Sharanya Nair, V. Raghavan, Ali S. Rangwala, Effect of Ullage on Burning Behavior of Small-Scale Pool Fires in a Cavity, Proceedings of the combustion institute, 2016, Citations: 0, impact factor: 4.12
  40. P.K. Shijin, B. Aravindh and V. Raghavan, Experimental study of bluff body stabilized laminar reactive boundary layers, International journal of heat and mass transfer, 2016, 102, 219-225. Citations: 0, impact factor: 2.857
  41. Akhilesh Kumar Sahu, V. Raghavan, B.V.S.S.S. Prasad, Numerical Study of Hydrodynamics in Gas-Solid Reactors Operating within Bubbling Fluidization Regime, Progress in CFD - an international journal, 2016, Citations: 0, impact factor: 0.36
  42. G. Avinash, Amit Kumar and V. Raghavan, Experimental Analysis of Diffusion Flame Spread along Thin Parallel Solid Fuel Surfaces in a Natural Convective Environment, Combustion and Flame, 2016, 165, 321-333. Citations: 0, impact factor: 4.168
  43. P. Senthil Kumar, V. Raghavan and T. Sundararajan, The effects of grids on the near-field evolution of turbulence in a low-reynolds number jet, Physics of Fluids, 2015, 27, 114101. Citations: 0, impact factor: 2.017
  44. G. Avinash, Seik Mansoor Ali, V. Raghavan and Amit Kumar, Numerical modelling of laminar flames from methanol wicks confined within vertically oriented parallel walls in a mixed convective environment, Fire safety journal, 2015, 74, 48-60. Citations: 0, impact factor: 0.936
  45. K. R. V. Manikantachari, V. Raghavan and K. Srinivasan, Effects of Burner Configurations on the Natural Oscillation Characteristics of Laminar Jet Diffusion Flames, International journal of spray and combustion dynamics, 2015, 7(3), 257-282. Citations: 0, impact factor: 0.767
  46. Manjunath More, V. Raghavan and P. S. Mehta, Vaporization Characteristics of Suspended Droplets of Biodiesel fuels of Indian Origin and their Diesel Blends - An Experimental Study, International journal of heat and mass transfer, 2015, 88, 28-41. Citations: 1, impact factor: 2.857
  47. C. Solaimuthu, V. Raghavan, D. Senthilkumar and C. G. Saravanan , Experimental investigation of evaporation rate and emission studies ofmadhuca indica biodiesel and its blend with diesel, Interntaional Journal of Green Energy, 2015, 12 (6), 635-640. Citations: 2, impact factor: 1.601
  48. Manjunath More, Pratheesh Prakash, V. Raghavan and P. S. Mehta, Composition Effects on Thermo-Physical Properties and Evaporation of Suspended Droplets of Biodiesel Fuels, SAE International Journal of Fuels and Lubricants, 2014, 7(3), DOI:10.4271/2014-01-2760. Citations: 0, impact factor: 2.13
  49. Naeem Khan and V. Raghavan, Structure and Reaction Zones of Hydrogen - Carbon-Monoxide Laminar Jet Diffusion Flames, International journal of hydrogen energy, 2014, 39 (34), 19832–19845. Citations: 2, impact factor: 3.205
  50. P.K. Shijin, Soma Sundaram, V. Raghavan, V. Babu, Numerical Investigation of Laminar Cross-flow Non-premixed Flames in the Presence of a Bluff-body, Combustion theory and modelling, 2014, 18 (6),692-710. Citations: 2, impact factor: 2.23
  51. Akhilesh Kumar Sahu, K. A. Joshi, V. Raghavan, Ali S. Rangwala, Comprehensive Numerical Modeling of Ignition of Coal Dust Layers in Different Configurations, Proceedings of the combustion institute, 2014, DOI: 10.1016/j.proci.2014.06.128. Citations: 0, impact factor: 4.12
  52. Seik Mansoor Ali and V. Raghavan, Steady Laminar Flame Characteristics over Methanol Surface with Air Co-flow, International Journal of Advances in Engineering Sciences and Applied Mathematics (IITM journal), 2014, 6(1-2), 106-116.
  53. R. Vallinayagam, S. Vedharaj, W.M. Yang, V. Raghavan, C.G. Saravanan, P.S. Lee, K.J.E. Chua, S.K. Chou, Investigation of evaporation and combustion characteristics of pine oil biofuel fumigated in the inlet manifold of a diesel engine, Applied energy, 2014, 115, 514-524. Citations: 12, impact factor: 5.746
  54. S. Raghuram and V. Raghavan, Thermodynamic Analysis of Evaporation of Suspended Two-Component Liquid Fuel Droplets in a Mixed Convective Environment, International journal of transport phenomena (extended conference paper published in journal), 2013, 13 (3), 219-231.
  55. Neeraj Singh, V. Raghavan and T. Sundararajan, Mathematical modeling of gasification of high-ash Indian coals in moving bed gasification system, International journal of energy research, 2013, DOI: 10.1002/er.3078. Citations: 5, impact factor: 2.529
  56. Shantanu Sarkar, S. Raghuram and V. Raghavan, Transient Evaporation of Moving Water Droplets in Steam-Hydrogen-Air Environment, International journal of heat and mass transfer, 2013, 64, 536-546. Citations: 20, impact factor: 2.857
  57. S. Raghuram, V. Raghavan, Daniel Pope and George Gogos, Two-Phase Modeling of Evaporation Characteristics of Blended Methanol-Ethanol Droplets, International journal of multiphase flows, 2013, 52, 46-59. Citations: 7, impact factor: 2.25
  58. S. Sivakumar and V. Raghavan, Effect of Asymmetric Boundary Layer at the Nozzle Exit on the Near Field Characteristics of Round Jets, Progress in CFD - an international journal, 2014, 14(4), 221-232. Citations: 0, impact factor: 0.36
  59. S. Sivakumar, Ravikiran. S. and V. Raghavan, Effect of Grid Generated Turbulence on Near Field Characteristics of Round Jets, International Journal of Turbo and Jet Engines, 2013, 30(1), 67-77. Citations: 0, impact factor: 0.31
  60. P. Pratheesh, V. Raghavan and Pramod S. Mehta, Analysis of Multi-Mode Burning Characteristics of Isolated Droplets of Biodiesel-Diesel Blends, ASME Journal of Energy Resources Technology, 2013, 135, 024501. Citations: 7, impact factor: 1.347
  61. S. Raghuram and V. Raghavan, Numerical study of transient evaporation of moving two-component fuel droplets, Atomization and Sprays, 2012, 22 (6), 493–513. Citations: 1, impact factor: 1.235
  62. S. Arun, S. Raghuram, R. Sreenivasan and V. Raghavan, Effect of hydrogen addition in the co-flow of a methane diffusion flame in reducing nitric oxide emissions, International journal of hydrogen energy, 2012, 37, 19198 - 19209. Citations: 0, impact factor: 3.205
  63. S. Raghuram, V. Raghavan, Daniel Pope and George Gogos, Numerical Study of Marangoni Convection during Transient Evaporation of Two-Component Droplet under Forced Convective Environment, International journal of heat and mass transfer, 2012, 55, 7949–7957. Citations: 11, impact factor: 2.857
  64. K. A. Joshi, V. Raghavan and A. S. Rangwala, Effect of Weathering of Coal and Organic Dusts on their Spontaneous Ignition, Fire Technology, 2012, doi: 10.1007/s10694-012-0292-7. Citations: 2, impact factor: 1.016
  65. C. R. Arun and V. Raghavan, Numerical Parametric Studies of Laminar Flame Structures in Opposed Jets of Partially Premixed Methane-Air Streams, International Journal of Turbo and Jet Engines, 2012, 29(3), 207–215. Citations: 1, impact factor: 0.31
  66. K. A. Joshi, V. Raghavan and A. S. Rangwala, Influence of Confinement Geometry on Ignition Behavior of Dust Deposits, Proceedings of the combustion institute, 2013, 34(2), 2471–2478. Citations: 1, impact factor: 4.12
  67. S. Raghuram and V. Raghavan, Thermodynamic Analysis of Evaporation of Levitated Binary and Ternary Liquid Fuel Droplets under Normal Gravity, ISRN Thermodynamics, 2012, doi:10.5402/2012/167281. Citations: 1
  68. C. Kanthasamy, V. Raghavan and K. Srinivasan, Effect of Low Frequency Burner Vibrations on the Characteristics of Premixed Flames, International journal of spray and combustion dynamics, 2012, 4(30, 239-254. Citations: 0, impact factor: 0.767
  69. Y. Xie, V. Raghavan and A. S. Rangwala, Study of Interaction of Entrained Coal Dust Particles in Lean Methane - Air Premixed Flames, Combustion and Flame, 2012, 159 (12), 2449-2456. Citations: 14, impact factor: 4.168
  70. S. Sivakumar, R. Sangras, and V. Raghavan, Characteristics of Turbulent Round Jets in its Potential-Core region, International Journal of Mechanical and Aerospace Engineering, 2012, 6, 119-125
  71. Sreenivasan R., Sumit Kumar Koli and V. Raghavan, Experimental Study of Effects of Co-Flow Air and Partial Premixing on Liquid Petroleum Gas Flames, ISRN Thermodynamics, 2012, doi:10.5402/2012/202715. Citations: 1
  72. Vaibhavkumar Sahu and V. Raghavan, A Numerical Study of Steady Diffusion Flames Established over Ethanol Fed Porous Spheres, Archivum Combustionis, 2011, 31(4) 211-222. Citations: 0
  73. Seik Mansoor Ali, V. Raghavan and A. S. Rangwala, Numerical analysis of flame heating on arbitrarily oriented condensed fuel surfaces, Fire safety journal, 2012, 49, 67–78. Citations: 5, impact factor: 0.936
  74. Aravindh Jatolilya, B. Pandian and V. Raghavan, Experimental Study of Pre-mixed Flames on a Multi-hole Matrix Burner, International Journal of Integrated Engineering, 2012, 4(1), 1-5
  75. R. Sreenivasan, V. Raghavan and T. Sundararajan, Numerical Investigation of Burning and Emission Characteristics of Laminar Methane Diffusion Flames in Preheated Oxidizer, International journal for energy for clean environment, 2011, 11, 145-161. Citations: 1
  76. D. Yogendra, V. Raghavan and Pramod S. mehta, Evaporation Characteristics of Karanja Bio-Diesel and its Diesel Blends, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2015, 37 (15) 1597-1605. Citations: 0, impact factor: 0.386
  77. P. Mangarjuna Rao, V. Raghavan, K. Velusamy, T. Sundararajan and U.S.P. Shet. , Modeling of Quasi-Steady Sodium Droplet Combustion in Convective Environment, International journal of heat and mass transfer, 2012, 55, 734–743. Citations: 7, impact factor: 2.857
  78. Seik Mansoor Ali, V. Raghavan, K. Velusamy and S. Tiwari, A numerical study of concurrent flame propagation over methanol pool surface, ASME Journal of heat transfer, 2012, 134, 041202. Citations: 0, impact factor: 1.83
  79. Shrikrishna Deshpande, R. Sreenivasan and V. Raghavan, A Numerical Study of Structures of Laminar Opposed Flow Premixed Methane-Hydrogen-Air Flames at Low Strain Rate, Computational Thermal Sciences, 2011, 3 (5) 359–373. Citations: 0, impact factor: 0.42
  80. Vaibhav Sahu, D. Shrikrishna and V. Raghavan, Numerical Analysis of Auto-ignition of Ethanol, International Journal of Integrated Engineering, 2011, 3(1), 1-4
  81. R. Sreenivasan, V. Raghavan and T. Sundararajan, An investigation of Flame Zones and Burning Velocities of Laminar Unconfined Methane-Oxygen Premixed Flames, Combustion theory and modelling, 2012, 16, 199-219. Citations: 3, impact factor: 2.23
  82. Y. Xie, V. Raghavan and A. S. Rangwala, Naturally entraining solid particle injector, Powder technology, 2011, 213, 199-201. Citations: 3, impact factor: 2.759
  83. K. A. Joshi, V. Raghavan and A. S. Rangwala, An experimental study of coal dust ignition in wedge shaped hot plate configurations, Combustion and Flame, 2012, 159, 376-384. Citations: 12, impact factor: 4.168
  84. Vaibhav Sahu, V. Raghavan, D. N. Pope and G. Gogos, Numerical modeling of steady burning characteristics of spherical ethanol particles in a spray environment, ASME Journal of heat transfer, 2011, 133(9), 094502. Citations: 2, impact factor: 1.83
  85. Vaibhav Sahu, S. M. Ali and V. Raghavan, A numerical study of leading edge anchoring characteristics of ethanol sourced laminar boundary layer diffusion flames , Combustion science and technology, 2011, 183 (10), 1133-1145. Citations: 0, impact factor: 1.193
  86. K. Bhadraiah and V. Raghavan, Numerical Investigation of the Temperature and Species Distributions in Co-Flow Methane-Oxygen Laminar Diffusion Flames, Progress in CFD - an international journal, 2011, 11 (6), 363-372. Citations: 2, impact factor: 0.36
  87. C. Kanthasamy, V. Raghavan and K. Srinivasan, Effect of Low Frequency Burner Vibrations on the Characteristics of Jet Diffusion Flames, International journal of spray and combustion dynamics, 2012, 4(1), 77-96. Citations: 2, impact factor: 0.767
  88. K. Alex Francis, R. Sreenivasan and V. Raghavan, Investigation of structures and reaction zones of methane–hydrogen laminar jet diffusion flames , International journal of hydrogen energy, 2011, 36, 11183-11194. Citations: 8, impact factor: 3.205
  89. B. Balaji, V. Raghavan, K. Ramamurthi and George Gogos, Numerical Investigation of Evaporation of n-Dodecane Droplets in High Pressure Nitrogen Environment, Physics of Fluids, 2011, 23, 063601; doi:10.1063/1.3599700. Citations: 3, impact factor: 2.017
  90. B. Balaji, V. Raghavan and K. Ramamurthi, A Parametric Study of the Choice of Binary Interaction Parameter and Equation of State for High Pressure Vapor-Liquid Equilibrium of Nitrogen - n-Dodecane Binary System, International journal of thermodynamics, 2011, 14(2), 79-86. Citations: 1, impact factor: 1.08
  91. V. Raghavan, W. T. James and A. S. Rangwala, An estimation of modelling parameters for condensed multi-component fuels, ImechE, Part C, Journal of Mechanical Engineering Science, 2011, 225, 1229-1235. Citations: 0, impact factor: 0.589
  92. K. Bhadraiah and V. Raghavan, A Numerical Study of the Effect of Radial Confinement on the Characteristics of Laminar Co-Flow Methane-Oxygen Diffusion Flames, ImechE, Part C, Journal of Mechanical Engineering Science, 2011, 225, 1213-1228. Citations: 2, impact factor: 0.589
  93. E. D. Gopalakrishnan and V. Raghavan, Numerical Investigation of Laminar Diffusion Flames Established on a Horizontal Flat Plate in a Parallel Air Stream, International journal of spray and combustion dynamics, 2011, 3(2), 161-190. Citations: 3, impact factor: 0.767
  94. G. Chiranjeevi Vidyasagar, V. Raghavan and K. Srinivasan, Effect of Upstream Annular Cavities in Circular Jet Burners on Stability Characteristics of Jet Diffusion Flames, Combustion science and technology, 2011, 183(6), 614-626. Citations: 0, impact factor: 1.193
  95. S. Parag, K. Bhadraiah and V. Raghavan, Emissions from ethanol-blended fossil fuel flames,Experimental thermal and fluid science, 2011, 35(1), 96-104. Citations: 6, impact factor: 2.128
  96. K. Bhadraiah and V. Raghavan, Numerical simulation of laminar co-flow methane–oxygen diffusion flames: effect of chemical kinetic mechanisms, Combustion theory and modelling, 2010, 15(1), 23-46. Citations: 15, impact factor: 2.23
  97. Seik Mansoor Ali, V. Raghavan and S. Tiwari, A Study of Steady Laminar Diffusion Flame over Methanol Pool Surface, International journal of heat and mass transfer, 2010, 53, 4696-4706. Citations: 13, impact factor: 2.857
  98. R. Dubey, K. Bhadraiah and V. Raghavan, On the Estimation and Validation of Global Single-Step Kinetics Parameters of Ethanol-Air Oxidation Using Diffusion Flame Extinction Data, Combustion science and technology, 2010, 183(1), 43-50. Citations: 12, impact factor: 1.193
  99. Seik Mansoor Ali, V. Raghavan and A. S. Rangwala, A Numerical Study of Quasi-Steady Burning Characteristics of a Condensed Fuel - Effect of Angular Orientation of Fuel Surface, Combustion theory and modelling, 2010, 14(4), 495-518. Citations: 14, impact factor: 2.23
  100. Khalde Chirag, Kadli Vijay, V. Raghavan and Ali S. Rangwala, Smoldering Combustion of Biomass Particles, Journal of Applied Sciences, 2011, 11(10), 1862-1866. Citations: 2, impact factor: 0.48
  101. Pope, D. N., V. Raghavan and G. Gogos, Gas-phase entropy generation during transient methanol droplet combustion, International journal of thermal sciences, 2010, 49, 1288-1302. Citations: 6, impact factor: 2.769
  102. H. Zhang, V. Raghavan and G. Gogos, Subcritical and Supercritical Droplet Evaporation within a Zero Gravity Environment - on the Discrepancies between Theoretical and Experimental Results, International journal of spray and combustion dynamics, 2009, 1(3), 317-338. Citations: 13, impact factor: 0.767
  103. A. Sen, V. Raghavan and U.S.P. Shet, Experimental Investigation of Characteristics of a Diffusion Flame Established over Liquid Ethanol Surface under Opposed Air Flow, Experimental thermal and fluid science, 2009, 33(3), 538-541. Citations: 1, impact factor: 2.128
  104. V. Raghavan, S. Rajesh, S. Parag and V. Avinash, Investigation of Combustion Characteristics of Biodiesel and its Blends, Combustion science and technology, 2009, 181, 877-891. Citations: 23, impact factor: 1.193
  105. V. Raghavan, V. Babu and T. Sundararajan, Investigation of Interaction between Methanol Fed Tandem Porous Spheres Burning in a Mixed Convective Environment, Combustion theory and modelling, 2009, 13(3), 461-485. Citations: 0, impact factor: 2.23
  106. S. Parag and V. Raghavan, Experimental Investigation of Burning Rates of Pure Ethanol and Ethanol Blended Fuels, Combustion and Flame, 2009, 156(5), 997-1005. Citations: 47, impact factor: 4.168
  107. A. S. Rangwala, V. Raghavan, J. Sipe and T. Okano, A New Property Evaluation Scheme for Mass Transfer Analysis in Fire Problems, Fire safety journal, 2009, 44(4), 652-658. Citations: 3, impact factor: 0.936
  108. V. Raghavan, A. S. Rangwala, and J. L. Torero, Laminar Flame Propagation on a Horizontal Fuel Surface - Verification of Classical Emmons Solution, Combustion theory and modelling, 2009, 13(1), 121-141. Citations: 19, impact factor: 2.23
  109. V. Raghavan and B. Premachandran, Microscale Flow Through Channels With a Right-Angled Bend: Effect of Fillet Radius, ASME Journal of fluids engineering, 2008, 130, 101207. Citations: 6, impact factor: 1.442
  110. S. Rajesh, V. Raghavan, U.S.P. Shet, T. Sundararajan, Analysis of quasi-steady combustion of Jatropha bio-diesel, International communications in heat and mass transfer, 2008, 35(9), 1079-1083. Citations: 23, impact factor: 2.559
  111. H. Zhang, V. Raghavan and G. Gogos, Subcritical and Supercritical Droplet Evaporation within a Zero Gravity Environment: Low Weber Number Relative Motion, International communications in heat and mass transfer, 2008, 35(4), 385-394. Citations: 13, impact factor: 2.559
  112. V. Raghavan, Pope, D. and Gogos, G., Effect of Non-Luminous Flame Radiation during Methanol Droplet Combustion, Combustion science and technology, 2008, 180(3), 546-564. Citations: 4, impact factor: 1.193
  113. K. Saito, V. Raghavan and Gogos, G., Numerical Study of Transient Laminar Natural Convection Heat Transfer over a Sphere Subjected to a Constant Heat Flux , Heat and mass transfer (springer), 2007, 43(9), 923-933. Citations: 7, impact factor: 1.044
  114. V. Raghavan, Gogos, G., Babu, V. and Sundararajan, T., Entropy Generation during the Quasi-Steady Burning of Spherical Fuel Particles, International journal of thermal sciences, 2007, 46(6), 589-604. Citations: 21, impact factor: 2.769
  115. S. Yang, V. Raghavan and Gogos, G., Numerical Study of Transient Laminar Natural Convection over an Isothermal Sphere, International journal of heat and fluid flow, 2007, 28(4), 821-837. Citations: 16, impact factor: 1.737
  116. V. Raghavan, Scott E. Whitney, Ryan J. Ebmeier, Nisha V. Padhye, Michael Nelson, Hendrik J. Viljoen and G. Gogos, Thermal Analysis of the Vortex Tube Based Thermocycler for Fast DNA Amplification: Experimental and Two-dimensional Numerical Results, Review of scientific instruments, 2006, Online 094301. Citations: 6, impact factor: 1.336
  117. V. Raghavan, Pope, D. and Gogos, G., Effects of surface Tension and Forced Convection during Methanol Droplet Combustion, AIAA Journal of thermophysics and heat transfer, 2006, 20(4), 787-798. Citations: 3, impact factor: 1.035
  118. V. Raghavan, Gogos, G., Babu, V. and Sundararajan, T., Effect of Gravity on Methanol Diffusion Flames Burning within a Forced Convective Environment, International communications in heat and mass transfer, 2006, 33, 686-697. Citations: 7, impact factor: 2.559
  119. V. Raghavan, Howard. D., Pope, D. and Gogos, G., Surface Tension Effects during Low Reynolds Number Methanol Droplet Combustion , Combustion and Flame, 2006, 145, 791-807. Citations: 29, impact factor: 4.168
  120. V. Raghavan, Babu, V., Sundararajan, T. and Natarajan, R., Flame Shapes and Burning rates of Spherical Fuel Particles in a Mixed Convective Environment, International journal of heat and mass transfer, 2005, 48, 5354-5370. Citations: 38, impact factor: 2.857