Publications
Peer-Reviewed Publications
Dasappa, S., Camacho, J., “Deposition of graphenic carbon nanomaterials from elevated temperature premixed stagnation flames,” Applications in Energy and Combustion Science, 15, 100178 (2023).
Rodriguez-Fernandez, H., Sabado, Kaylin D., Dasappa, S., Camacho, J. “Production of carbon black in turbulent spray flames of coal-tar distillates,” Applied Sciences, 11, 10001 (2021). (Feature paper)
Dasappa, S., Camacho, J. “Ultrafine particulate matter in premixed methane-air flames with oxygen enrichment,” Frontiers of Mechanical Engineering 7, 739914 (2021).
Dasappa, S., Camacho, J., “Raman spectroscopy, mobility size and radiative emissions data for soot formed at increasing temperature and equivalence ratio in flames hotter than conventional combustion applications”, Data in Brief, 107064 (2021).
Dasappa, S., Camacho, J., “Fuel molecular structure effect on soot mobility size in premixed C6 hydrocarbon flames”, Fuel, 300, 120973 (2021).
Dasappa, S., Camacho, J., “Thermodynamic Barrier to Nucleation for Manganese Oxide Nanoparticles Synthesized by High-Temperature Gas-to-Particle Conversion”, Energy & Fuels, 35, 1874-1884 (2021).
Dasappa, S., Camacho, J., “Evolution in size and structural order for incipient soot formed at flame temperatures greater than 2100 Kelvin”, Fuel, 291, 120196 (2021).
Dasappa, S., Camacho, J., “Formation of nanocrystalline manganese oxide in flames: oxide phase governed by classical nucleation and size-dependent equilibria”, CrystEngComm, 22, 5509-5521 (2020).
Bonpua, J., Yagues, Y., Aleshin, A., Dasappa, S., Camacho, J., “Flame temperature effect on sp2 bonds on nascent carbon nanoparticles formed in premixed flames (Tf,max above 2100K) : A Raman spectroscopy and particle mobility sizing study,” Proceedings of the Combustion Institute, 37, 943-951, (2019).
Saggese, C., Singh, A.V., Xue, X., Chu, C., Kholghy, M.R., Zhang, T., Camacho, J., Giaccai, J., Miller, J.H., Thomson, M.J., Sung, C.J., Wang, H., “The distillation curve and sooting propensity of a typical jet fuel,” Fuel, 235, 350-362, (2018).
Liu, C., Camacho, J., Wang, H., “Phase equilibrium of TiO2 nanocrystals in flame-assisted chemical vapor deposition,” ChemPhysChem, 19, 180-186, (2018). cover article
Camacho, J., Singh, A.V., Wang. W., Shan, R., Yapp, E.K.Y., Kraft, M., Wang, H., “Soot particle size distributions in premixed stretch-stabilized flat ethylene–oxygen–argon flames” Proceedings of the Combustion Institute, 36, 1001-1009 (2017).
Gu, C., Lin, H., Camacho, J., Lin, B., Shao, C., Li, R., Gu, H., Guan, B., Wang, H., Huang, Z., “Mobility size distributions of soot in propene flames,” Combustion and Flame, 172, 365-373 (2016).
Saggese, C., Cuoci, A., Frassodalti, A., Ferrario, S., Camacho, J., Wang, H., Faravelli, T., “Probe effects of soot sampling from a burner stabilized stagnation flame,” Combustion and Flame, 167, 184-197 (2016).
Gu, C., Lin, H., Camacho, J., Lin, B, Shao, C., Li, R., Gu, H., Huang, Z., Wang, H., “Particle size distribution of nascent soot in lightly and heavily sooting premixed ethylene flames,” Combustion and Flame, 165, 177-187 (2016).
Yapp, E.K.Y, Chen, D., Akroyd, J., Mosbach, S., Kraft, M., Camacho, J., Wang, H., “Numerical simulation and parametric sensitivity of particle size distributions in a burner-stabilised stagnation flame,” Combustion and Flame 162, 2569-2581 (2015).
Saggese, C., Ferrario, S., Camacho, J., Cuoci, A., Frassoldati, A., Ranzi, E., Wang, H., Faravelli, T., “Kinetic modeling of particle size distribution of soot in a premixed burner-stabilized stagnation ethylene flame,” Combustion and Flame 162, 3356-3369 (2015).
Camacho, J., Liu, C., Gu, C., Lin, H., Huang, Z., Tang, Q., You, X., Saggese, C., Li, Y., Jung, H., Deng, L., Wlokas, I., Wang, H., “Mobility size and mass of nascent soot particles in a benchmark premixed ethylene flame,” Combustion and Flame 162, 3810-3822 (2015).
Camacho, J., Tao, Y., Wang, H., “Kinetics of nascent soot oxidation by molecular oxygen in a flow reactor,” Proceedings of the Combustion Institute 35, 1887-1894 (2015).
Puduppakkam, K.V., Modak, A.U., Naik, C.V., Camacho, J., Wang, H., Meeks, E., “A Soot chemistry model that captures fuel effects,” ASME Turbo Expo 2014: Turbine Technical Conference and Exposition GT2014-27123 (2014).
Camacho, J., Lieb, S., Wang, H., “Evolution of size distribution of nascent soot in i-butanol and n-butanol flames,” Proceedings of the Combustion Institute 34, 1853-1860 (2013).
Cain, J.P., Camacho, J., Phares, D. J., Wang, H., Laskin, A. “Evidence of aliphatics in nascent soot particles in premixed ethylene flames,” Proceedings of the Combustion Institute 33, 533–54 (2011).
Abid, A.D., Camacho, J., Sheen, D.A., Wang, H. “Evolution of soot particle size distribution function in burner-stabilized stagnation n-dodecane-oxygen-argon flames,” Energy & Fuels 23, 4286–4294 (2009).
Abid, A.D., Camacho, J., Sheen, D.A., Wang, H. “Quantitative measurement of soot particle size distribution in premixed flames – The burner-stabilized stagnation flame approach,” (feature article) Combustion and Flame 156, 1862–1870 (2009).
Rodriguez-Fernandez, H., Sabado, Kaylin D., Dasappa, S., Camacho, J. “Production of carbon black in turbulent spray flames of coal-tar distillates,” Applied Sciences, 11, 10001 (2021). (Feature paper)
Dasappa, S., Camacho, J. “Ultrafine particulate matter in premixed methane-air flames with oxygen enrichment,” Frontiers of Mechanical Engineering 7, 739914 (2021).
Dasappa, S., Camacho, J., “Raman spectroscopy, mobility size and radiative emissions data for soot formed at increasing temperature and equivalence ratio in flames hotter than conventional combustion applications”, Data in Brief, 107064 (2021).
Dasappa, S., Camacho, J., “Fuel molecular structure effect on soot mobility size in premixed C6 hydrocarbon flames”, Fuel, 300, 120973 (2021).
Dasappa, S., Camacho, J., “Thermodynamic Barrier to Nucleation for Manganese Oxide Nanoparticles Synthesized by High-Temperature Gas-to-Particle Conversion”, Energy & Fuels, 35, 1874-1884 (2021).
Dasappa, S., Camacho, J., “Evolution in size and structural order for incipient soot formed at flame temperatures greater than 2100 Kelvin”, Fuel, 291, 120196 (2021).
Dasappa, S., Camacho, J., “Formation of nanocrystalline manganese oxide in flames: oxide phase governed by classical nucleation and size-dependent equilibria”, CrystEngComm, 22, 5509-5521 (2020).
Bonpua, J., Yagues, Y., Aleshin, A., Dasappa, S., Camacho, J., “Flame temperature effect on sp2 bonds on nascent carbon nanoparticles formed in premixed flames (Tf,max above 2100K) : A Raman spectroscopy and particle mobility sizing study,” Proceedings of the Combustion Institute, 37, 943-951, (2019).
Saggese, C., Singh, A.V., Xue, X., Chu, C., Kholghy, M.R., Zhang, T., Camacho, J., Giaccai, J., Miller, J.H., Thomson, M.J., Sung, C.J., Wang, H., “The distillation curve and sooting propensity of a typical jet fuel,” Fuel, 235, 350-362, (2018).
Liu, C., Camacho, J., Wang, H., “Phase equilibrium of TiO2 nanocrystals in flame-assisted chemical vapor deposition,” ChemPhysChem, 19, 180-186, (2018). cover article
Camacho, J., Singh, A.V., Wang. W., Shan, R., Yapp, E.K.Y., Kraft, M., Wang, H., “Soot particle size distributions in premixed stretch-stabilized flat ethylene–oxygen–argon flames” Proceedings of the Combustion Institute, 36, 1001-1009 (2017).
Gu, C., Lin, H., Camacho, J., Lin, B., Shao, C., Li, R., Gu, H., Guan, B., Wang, H., Huang, Z., “Mobility size distributions of soot in propene flames,” Combustion and Flame, 172, 365-373 (2016).
Saggese, C., Cuoci, A., Frassodalti, A., Ferrario, S., Camacho, J., Wang, H., Faravelli, T., “Probe effects of soot sampling from a burner stabilized stagnation flame,” Combustion and Flame, 167, 184-197 (2016).
Gu, C., Lin, H., Camacho, J., Lin, B, Shao, C., Li, R., Gu, H., Huang, Z., Wang, H., “Particle size distribution of nascent soot in lightly and heavily sooting premixed ethylene flames,” Combustion and Flame, 165, 177-187 (2016).
Yapp, E.K.Y, Chen, D., Akroyd, J., Mosbach, S., Kraft, M., Camacho, J., Wang, H., “Numerical simulation and parametric sensitivity of particle size distributions in a burner-stabilised stagnation flame,” Combustion and Flame 162, 2569-2581 (2015).
Saggese, C., Ferrario, S., Camacho, J., Cuoci, A., Frassoldati, A., Ranzi, E., Wang, H., Faravelli, T., “Kinetic modeling of particle size distribution of soot in a premixed burner-stabilized stagnation ethylene flame,” Combustion and Flame 162, 3356-3369 (2015).
Camacho, J., Liu, C., Gu, C., Lin, H., Huang, Z., Tang, Q., You, X., Saggese, C., Li, Y., Jung, H., Deng, L., Wlokas, I., Wang, H., “Mobility size and mass of nascent soot particles in a benchmark premixed ethylene flame,” Combustion and Flame 162, 3810-3822 (2015).
Camacho, J., Tao, Y., Wang, H., “Kinetics of nascent soot oxidation by molecular oxygen in a flow reactor,” Proceedings of the Combustion Institute 35, 1887-1894 (2015).
Puduppakkam, K.V., Modak, A.U., Naik, C.V., Camacho, J., Wang, H., Meeks, E., “A Soot chemistry model that captures fuel effects,” ASME Turbo Expo 2014: Turbine Technical Conference and Exposition GT2014-27123 (2014).
Camacho, J., Lieb, S., Wang, H., “Evolution of size distribution of nascent soot in i-butanol and n-butanol flames,” Proceedings of the Combustion Institute 34, 1853-1860 (2013).
Cain, J.P., Camacho, J., Phares, D. J., Wang, H., Laskin, A. “Evidence of aliphatics in nascent soot particles in premixed ethylene flames,” Proceedings of the Combustion Institute 33, 533–54 (2011).
Abid, A.D., Camacho, J., Sheen, D.A., Wang, H. “Evolution of soot particle size distribution function in burner-stabilized stagnation n-dodecane-oxygen-argon flames,” Energy & Fuels 23, 4286–4294 (2009).
Abid, A.D., Camacho, J., Sheen, D.A., Wang, H. “Quantitative measurement of soot particle size distribution in premixed flames – The burner-stabilized stagnation flame approach,” (feature article) Combustion and Flame 156, 1862–1870 (2009).