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International Journal
[In preparation]
1) S.J. Kang, C.S. Yoo*, J. Park*, S.H. Chung. Flame speed, Markstein length, cellular instability in outwardly propagating spherical flames of NH3/CH4/Air mixtures. In preparation (2024).
2) S.J. Kang, C.S. Yoo*, J. Park*, S.H. Chung. Effects of nonthermal plasma on flammability limit and NOx emission in a single-stage and two-stage model gas turbine combustors with blended fuels of CH4 and H2. In preparation (2024).
3) H.D. Lee, Z. Li, J. Park*, S.H. Chung, C.S. Yoo*. Effects of wire thickness and AC electric field on flame spread over cross-linked polyethylene-insulated electrical wire. In preparation (2024).
4) H.D. Lee, J. Park*, S.H. Chung, C.S. Yoo*. Evaluation of laminar burning velocity in outwardly-propagating spherical cool premixed flames. In preparation (2024).
5) H.D. Lee, J. Park*, S.H. Chung, C.S. Yoo*. Flame speed, Markstein length, cellualr instability in outwardly-propagating spherical cool premixed flames. In preparation (2024).
6) H.D. Lee, J. Park*, S.H. Chung, C.S. Yoo*. Effects of AC electric field and opposed air flow on flame spread over polyethylene-insulated electrical wire with NiCr-core. In preparation (2024).
7) S.H. Kim, J.J. Kim, C.S. Yoo*, J. Park*, S.H. Chung, Flame extinction in diluted counterflow nonpremixed cool flames with diluted DME under high temperature ambience. In preparation (2024).
8) D.J. Kim, S.Y. Oh, J. Park*, S.H. Chung, C.S. Yoo*, Mechanisms of blow-off and liftoff in laminar nonpremixed coflow jet flames of DME. In preparation (2024).
9) S.H. Kim, C.S. Yoo*, J. Park*, S.H. Chung, Effects of applied AC electric field on burning of n-decane droplet. In preparation (2024).
[2024]
1) J.M. Lee, J.H. Kim, H.D. Lee, J. Park*, S.H. Chung, C.S. Yoo*, An LES study of NOx emission characteristics of turbulent premixed flames of CH4/NH3/air in a two-stage swirl combustor. in preparation. (2024).
2) Z. Li, H.D. Lee, J. Park*, S.H. Chung. Effect of applied AC electric field on flame spread over electrical wire with cross-linked polyethylene insulation. in preparation. (2024).
3) D.J. Kim, S.Y. Oh, C.S. Yoo*, J. Park*, S.H. Chung. Non-monotonic liftoff height behaviors in laminar nonpremixed coflow jet flames of DME with ambient temperature variation. accepted in Proc. Combust. Inst. (2024).
4) J.H. Kim, H.D. Lee, J.M. Lee, J. Park*, S.H. Chung, C.S. Yoo*, Effects of the secondary air on the combustion characteristics of turbuelent premixed CH4/NH3/air flames in a two-stage swirl combustor, accepted in Proc. Combust. Inst. (2024).
5) H.D. Lee, J.M. Lee, J. Park*, S.H. Chung, C.S. Yoo*, Flame characteristics and No emission behaviors of methane/ammonia counterflow premixed flames with opposed N2 or air stream. Fuel 370 (2024) 131851.
https://doi.org/10.1016/j.fuel.2024.131851
6) G.T. Kim, J. Park*, S.H. Chung, C.S. Yoo*. Synergistic effect of nonthermal plasma and CH4 addition on turbulent NH3/air premixed flames in a swirl combustor. Int. J. Hydrogen Energy 49, part B, (2024) 521-532. https://doi.org/10.1016/j.ijhydene.2023.08.213.
[2023]
1) Z. Li, J.H. Kim, M.S. Kang, Y.C. Zhang, J. Park*, S.H. Chung. Effect of applied AC electric fields on flame spread over inclined polyethylene-insulated electrical wire with Cu-core. Fire Safety Journal 141 (2023) 103995.
https://doi.org/10.1016/j.firesaf.2023.103995
2) G.T. Kim, J. Park*, S.H. Chung, C.S. Yoo*. Effects of water vapor addition on downstream interaction in CO-O2 flames. Fuel 342 (2023) 127888. https://doi.org/10.1016/j.fuel.2023.127888
[2022]
1) G.T. Kim, J. Park*, S.H. Chung, C.S. Yoo*. Effects of non-thermal plasma on turbulent premixed flames of ammonia/air in a swirl combustor, Fuel 323 (2022) 124227. https://doi.org/10.1016/j.fuel.2022.124227.
2) M.S. Kang, J. Park*, S.H. Chung, C.S. Yoo*. Effect of the thickness of polyethylene insulation on flame spread over electrical wire with Cu-core under AC electric fields. Combust. Flame 240 (2022), 112017, https://doi.org/10.1016/j.combustflame.2022.112017.
3) K.S. Jung, S.H. Kwon, S.H. Chung, J. Park*, C.S. Yoo*. Flame edge dynamics in counterflow nonpremixed flames of CH4/He versus air at low strain rates: An experimental and numerical study. Combust. Flame 235 (2022), 111718, https://doi.org/10.1016/j.combustflame.2021.111718.
[2021]
1) M.S. Kang, S.H. Park, C.S. Yoo*, J. Park*, S.H. Chung. Effect of metal core on flame spread over electrical wire with applied electric fields. Proc. Combust. Inst. 38 (2021) 4747-4756, https://doi.org/10.1016/j.proci.2020.05.060.
2) K.H. Van, S.H. Oh, M.S. Cha, C.S. Yoo*, J. Park*, S.H. Chung. Effects of Schmidt number on Non-monotonic liftoff height behavior in laminar coflow-jet flames with diluted methane and ethylene. Proc. Combust. Inst. 38 (2021) 1913-1921, https://doi.org/10.1016/j.proci.2020.06.344.
3) S.H. Oh, K.S. Jung,, C.S. Yoo*, K.H. Van, M.S. Cha, S.H. Chung, J. Park*. On the characteristics of oscillating lifted flames in nonpremixed laminar coflow jets. Proc. Combust. Inst. 38 (2021) 2049-2056, https://doi.org/10.1016/j.proci.2020.06.355.
4) S.H. Park, J.W. Son, J. Park, M.S. Cha*. Elevated pressure increases the effect of electric fields on ionic wind in methane premixed jet flames, Proc. Combust. Inst. 38(4) (2021) 6679-6686 , https://doi.org/10.1016/j.proci.2020.11.003.
5) Y.S. Kang, K.M. Lee*, J. Park*. Mutually interacting SNG-air premixed flames. Fuel 285 (2021) Article 119065. https://doi.org/10.1016/j.fuel.2020.119065
[2020]
1) S.H. Oh, K.H. Van, C.S. Yoo*, S.H. Chung, J. Park*. Effects of diluents on the lifted flame characteristics in laminar nonpremixed coflow propane jets. Combust. Flame 222 (2020) 145-151.
https://doi.org/10.1016/j.combustflame.2020.08.044
3) H.J. Kim, K.H. Van, D.K. Lee, C.S. Yoo*, J. Park*, S.H. Chung. Laminar flame speed, Markstein length, and cellular instability for spherically propagating methane/ethylene-air premixed flames. Combust. Flame 214 (2020) 464-474. https://doi.org/10.1016/j.combustflame.2020.01.011
4) K.T. Kim, C.S. Yoo*, S.H. Chung, J. Park*. Effects of non-thermal plasma on the lean blowout limits and CO/NOx emissions in swirl-stabilized turbuelent lean-premixed flames of methane/air. Combust. Flame 212 (2020) 403-414. https://doi.org/10.1016/j.combustflame.2019.11.024
[2019]
1) S.H. Park, M.S. Kang, M.S. Cha*, J. Park*, S.H. Chung (2019). Flame spread over twin electrical wires with applied DC electric fields. Combust Flame 210 (2019) 350-359. https://doi.org/10.1016/j.combustflame.2019.09.003
2) J.H. Kim, S.G. Kim, K.M. Lee*, J. Park* (2019). An experimental study on thermoacoustic instabilities in premixed syngas impinging jet flames. Fuel 257, Article 115921. https://doi.org/10.1016/j.fuel.2019.115921
3) S.H. Park, S.J. Lim, M.S. Cha*, J. Park*, S.H. Chung (2019). Effect of AC electric field on flame spread in electrical wire: variation in polyethylene insulation thickness and di-electrophoresis phenomenon. Combust. Flame 202 (2019) 107-118. https://doi.org/10.1016/j.combustflame.2019.01.007
4) K.H. Van, J. Park*, S.H. Yoon, S.H. Chung, M.S. Cha* (2019). Mechanism on oscillating lifted flames in nonpremixed laminar coflow jets. Proc. Combust Inst. 37 (2019) 1997-2004.
https://doi.org/10.1016/j.proci.2018.07.052
5) K.H. Van, K.S. Jung, C.S. Yoo, S.H. Oh, B.J. Lee, M.S. Cha*, J. Park*, S.H. Chung (2019). Decreasing liftoff height behavior in laminar lifted methane jet flames diluted with nitrogen. Proc. Combust Inst. 37 (2019) 2005-2012. https://doi.org/10.1016/j.proci.2018.05.031
6) S.H. Yoon, J. Park, S.H. Chung, M.S. Cha* (2019). Edge flame propagation via parallel electric fields in nonpremixed coflow jets. Proc. Combust. Inst. 37 (2019) 5537-5544. https://doi.org/10.1016/j.proci.2018.06.026
[2018]
1) H.J. Kim, K.H. Van, K.M. Lee, D.G. Lee, Y.T. Kwak, J. Park*. Effects of additional diluents on flame propagation speed and Markstein length in outwardly propagating CH4/C2H4 flames. JMST 32(11) (2018) 5501-5509.
[2017]
1) G.T. Kim, D.G. Park, M.S. Cha*, J. Park*, S.H. Chung (2017). Flow instability in laminar jet flames driven by alternating current electric fields. Proc. Combust. Inst. 36 (2017) 4175-4182. https://doi.org/10.1016/j.proci.2016.09.015
2) G.T. Kim, B.H. Seo, W.J. Lee, J. Park*, M.K. Kim, S.M. Lee (2017). Effect of applying non-thermal plasma on combustion stability in a model gas turbine combustor. Fuel 194 (2017) 321-328.
https://doi.org/10.1016/j.fuel.2017.01.033
3) S.J. Lim, S.H. Park, J. Park*, O. Fujita, S.I. Keel, S.H. Chung (2017). Flame spread over inclined electrical wires with AC electric fields. Combust. Flame 185 (2017) 82-92. https://doi.org/10.1016/j.combustflame.2017.07.010
4) K.S. Sim, K.M. Lee*, S.I. Keel, J. Park* (2017). A Study on Flame Extinction Behavior in Downstream Interaction between SNG-Air Premixed Flames. Fuel 210 (2017) 545-556. https://doi.org/10.1016/j.fuel.2017.09.013
[2016]
1) I.G. Lim, J. Park* (2016). Flame characteristics and NO emission in methane/air-air counterflow premixed flames with applying FIR and FGR. JMST 30 (8) (2106) 3869-3876.
2) T.H. Kim, J.W. Park, J. Park*, O.B. Kwon, S.I. Keel, J.H. Yun, J.H. Park (2015). Chemical and radiation effects on flame extinction and NOx formation in oxy-methane combustion diluted with CO2. Fuel 177 (2016) 235-243. https://doi.org/10.1016/j.fuel.2016.03.012
[2015]
1) J.S. Ha, J. Park*, O.B. Kwon, I.G. Lim, S.I. Keel, J.H. Yun, H.Y. Park (2015). Flame extinction in interacting CO-air and syngas-air premixed flames. J. Mechanical Science and Technology 29(1) 1-10.
2) W.J. Lee, J. Park*, O.B. Kwon, J.H. Yun, S.I. Keel (2015). Heat-loss-induced Self-excitation in Laminar Lifted Coflow-jet Flames. Proc. Combust. Inst. 35 (2015) 1007-1014. https://doi.org/10.1016/j.proci.2014.06.022
3) S.J. Lim, M.K. Kim, J. Park*, O. Fujita, S.H. Chung (2015). Flame spread over electrical wire with AC electric fields: Internal circulation, fuel vapor-jet, spread rate acceleration, and molten insulator dripping. Combust. Flame 162 (2015) 1167-1175. https://doi.org/10.1016/j.combustflame.2014.10.009
[2014]
1) Y.J. Kim, T.H. Kim, J. Park*, O.B. Kwon, J.H. Yun, S.I. Keel (2014). Preferential diffusion effects in downstream interaction between premixed H2-air and CO-air flames. Fuel 116 (2014) 550-559.
2) SW Jung, J Park*, OB Kwon, YJ Kim, SI Keel, JH Yun, IG Lim (2014). Effects of CO2 addition on flame extinction in interacting H2-air and CO-air premixed flames. Fuel 136 (2014) 69-78
[2013]
1) T.H. Kim, J. Park*, O. Fujita, O.B. Kwon, J.H. Park (2013). Downstream Interaction between Stretched Premixed Syngas-air Flames. Fuel 105 (2013) 739-748.
2) Y.H. Chung, D.G. Park, J.H. Yun, J. Park*, O.B. Kwon, S.I. Keel (2013). Role of outer edge flame on flame extinction in nitrogen-diluted nonpremixed counterflow flames with finite burner diameters. Fuel 205 (2013) 540-550.
3) T.K. Kim, J. Park*, S.H. Oh, O.B. Kwon, S.H. Baek, S.H. Ko (2013). Important role of chemical interaction on flame extinction in downstream interaction between stretched pr emixed H2-air and CO-air flames. Int. J. Hydrogen Energy 38 (2013) 6537-6551.
4) W.J. Lee, S.H. Youn, J. Park*, O.B. Kwon, Y.J. Kim, J.H. Yun, S.I. Keel (2013). Lewis-number-induced and buoyancy-driven self-excitations in nitrogen-diluted laminar free-jet flames. Fuel 112 (2013) 366-374.
5) W.S. Song, J. Park*, O.B. Kwon, Y.J. Kim, T.H. Kim, J.H. Yun, S.I. Keel (2013). Effects of syngas addition on flame propagation and stability in outwardly propagating spherical dimethyl ether-air premixed flame. Int. J. Hydrogen Energy 38 (2013) 14102-14114.
[2012]
1) S.H. Yoon, J. Park*, O.B. Kwon, J.H. Yoon, S.I. Keel (2012). Experimental Study on Self-excitations in Nitrogen-diluted Laminar Lifted Butane Flames. Fuel 91 (2012) 51-60.
2) T.H. Kim, W.S. Song, J. Park*, O.B. Kwon, J.H. Park (2012). Effects of Preferential Diffusion on Downstream Interaction in Premixed H2/CO Syngas-Air Flames. Int. J. Hydrogen Energy.37 (2012) 12015-12027.
[2011]
1) T.M. Vu, J. Park*, J.S. Kim, O.B. Kwon, J.H. Yun, S.I. Keel (2011). Experimental Investigation on Cellular Instabilities in Hydrocarbon-Hydrogen-Carbon Monoxide-Air Premixed Flames. Int. J. Hydrogen Energy 36 (2011) 6914-6924.
2) J.S. Kim, J. Park*, O.B. Kwon, D.S. Bae, J.H. Yun, S.I. Keel (2011). A study on flame structure and extinction in downstream interaction between lean premixed CH4-air and (50% H2+50% CO) syngas-air flames. Int. J. Hydrogen Energy 36 (2011) 5717-5728.
3) S.H. Yoon, J.K. Han, J. Park*, J.H. Yun, S.I. Keel (2011). Self-excitation in laminar lifted free-jet propane flames diluted with nitrogen. Combust Flame, Vol. 158, p.1560
4) T.M. Vu, W.S. Song, J. Park*, O.B. Kwon, H.S. Yu (2011). Measurements of propagation speeds and flame instabilities in biomass derived gas-air premixed flames. Int. J. Hydrogen Energy 36 (2011) 12058-12067.
5) J.S. Ha, J. Park*, T.M. Vu, O.B. Kwon, J.H. Yun, S.I. Keel (2011). Effect of flame stretch in downstream interaction between premixed syngas-air flames. Int. J. Hydrogen Energy 36 (2011) 13181-13193
[2010]
1) J.S. Kim, J. Park*, D.S. Bae, T.M. Vu, J.S. Ha, T.K. Kim (2010). A Study on Methane-air Premixed Flames Interacting with Syngas-air Premixed Flames. Int. J. Hydrogen Energy. Vol.35, pp.1390-1400.
2) C.B. Oh*, E.J. Lee, J. Park (2010). Effects of Burner Diameter on the Flame Structure and Extinction Limit of Counterflow Non-premixed Flame. International Journal of Spray and Combustion Dynamics, Vol. 2, No. 3, 199-218.
3) T.M. Vu, J. Park*, O.B. Kwon, D.S. Bae, J.H. Yun, S.I. Keel (2010). Effects of Diluents on Cellular Instabilites in Outwardly Propagating Spherical Syngas-Air Premixed Flames. Int. J. Hydrogen Energy 35 (2010) 3868-3880.
4) J.S. Ha, C.W. Moon, J. Park*, J.S. Kim, J.H. Yun, S.I. Keel (2010). A Study on Flame Interaction between Methane-air and Nitrogen-diluted Hydrogen-air Premixed Flames. Int. J. Hydrogen Energy 35 (2010) 6992-7001.
[2009]
1) J. Park*, D.H. Lee, S.H. Yoon, T.M. Vu, J.H. Yun, and S.I. Keel (2009). Effects of Lewis Number and Preferential Diffusion on Flame Characteristics in H2/CO Syngas Flames Diluted with Ar and He. Int. J. Hydrogen Energy, vol.34, pp1578-1584.
2) E.J. Lee*, K.C. Oh, J. Park (2009). Jet entrainment effect on fire-induced flow in isothermal model applied to reduced-scale tunnel. Fire Safety Journal. vol. 44, 435-438.
3) J.H. Yun, D.G. Park, S.I. Keel, and J. Park* (2009). Experimental Study on the Behavior of Low Strain Rate Flame Disks in Counterflow Diffusion Flame. Int. J. Spray &Combust. Dynamics, Vol. 1, No. 4, 473-496.
4) D.G. Park, J.H. Yun, J. Park*, and S.I. Keel (2009). A Study on Flame Extinction Characteristics along a C-curve. Energy &Fuels, 23, 4236-4244.
5) J. Park*, J.S. Kim, J. O. Chung, J. H, Yun, and S.I. Keel (2009). Chemical effects on added CO2 on the extinction characteristics of H2/CO/CO2 syngas diffusion flames. Int. J. Hydrogen Energy. Vol.34, 8756-8762.
6) T.M. Vu, J. Park*, O.B. Kwon, J.S. Kim (2009). Effects of Hydrocarbon Addition on Cellular Instabilities in Expanding Syngas-Air Spherical Premixed Flames. Int. J. Hydrogen Energy. Vol.34, 6961-6969.
[2008]
1) J.S. Kim, J. Park*, O.B. Kwon, J.H. Yun, S.I. Keel, and T. K. Kim (2008). Preferential diffusion effects on NO formation in methane/hydrogen-air diffusion flames.Energy &Fuels 22, 278-283.
2) J.S. Kim, J. Park*, O.B. Kwon, E.J. Lee, J.H. Yun, S.I. Keel (2008). Preferential diffusion effects in opposed-flow diffusion flame with blended fuels of CH4 and H2. Int. J. Hydrogen Energy 33, 842-850.
3) C. B. Oh, A. Hamins*, M. Bundy, J. Park (2008). The Two-dimensional structure of Low Strain Rate Counterflow Non-premixed Methane Flames in Normal and Microgravity. Combustion Theory and Modelling, Vol. 12, No.2, 283-302.
4) S.C. Kim*, J.S. Kim, J.W. Choi, J. Park, and S.D. Kwon (2008). Numerically analyzed supersonic flow structure behind the exit of a two-dimensional micro nozzle. JMST 22, 1174-1180.
5) J. Park*, D.S. Bae, M.S. Cha, J.H. Yun, S.I. Keel, H.C. Cho, T.K. Kim, and J.S. Ha (2008). Flame characteristics in H2/CO synthetic gas diffusion flame diluted with CO2 : effects of flame radiation and mixture composition. Int. J. Hydrogen Energy. 33, 7256-7264.
6) J. Park*, O.B. Kwon, J. H. Yun, S.I. Keel, H.C. Cho, and S.C. Kim (2008). Preferential diffusion effects on flame characteristics in H2/CO syngas diffusion flames diluted with CO2. Int. J. Hydrogen Energy.33, 7286-7294.
[2007]
1) J. Park*, D.J. Hwang, J.S. Park, J.S. Kim, S.I. Keel, H.C. Cho, D.S. Noh, and T.K. Kim (2007). Hydrogen Utilization as a Fuel: Hydrogen-Blending Effects in Flame Structure and NO Emission Behavior of CH4-Air Counterflow Diffusion Flame. Int. J. Energy Research. vol. 31, pp472-485.
2) J. Park*, J. S. Park, H. P. Kim, J. S. Kim, S. Kim, H. C. Cho, K. W. Cho, and H. S. Park (2007). NO Emission Behavior in Oxy-fuel Combustion Recirculated with Carbon Dioxide. Energy &Fuels, 21, 121-129.
3) J. Park*, S. I. Keel, J. H. Yun, T. K. Kim (2007). Effects of addition of electrolysis products in methane-air diffusion flames. Int. J. Hydrogen Energy 32, 4059-4070.
4) J. Park*, S.I. Keel, and J.H. Yun (2007). Addition Effects of H2 and H2O on Flame Structure and Pollutant Emission in Methane-Air Diffusion Flame. Energy &Fuels 21, 3216-3224.
[2006]
1) C.B. Oh, C.H.Hwang, C.E. Lee*, and J. Park (2006). Unsteady Extinction Mechanism of Nonpremixed Flame Interacting with a Vortex. Chemical Engineering Science 61 (2006) pp3643-3652.
2) J.S. Park, D. J. Hwang, J. Park*, J.S. Kim, S.C. Kim, S.I. Keel, K.T. Kim, and D.S. Noh (2006). Edge Flame Instability in Low Strain Rate Counterflow Diffusion Flames. Combust Flame. vol. 146, pp612~619
3) S. Kim, J. S. Kim*, J. Park, and J. Choi (2006). Measurements in the wake of an airfoil with regular roughness on the upper surface near the leading edge. Proc. IMechE Vol. 220 Part G: J. Aerospace Engineering
[2005]
1) J. Park*, K.T. Kim, J.S. Park, J.S. Kim, S.C. Kim, and T.K. Kim (2005). A Study on H2-Air Counterflow Flames in Highly Preheated Air Diluted with CO2. Energy &Fuel
2) D.J. Hwang, J. Park*, C.B Oh,K.H Lee and S.I. Keel (2005) Numerical Study on NO Formation in CH4-O2-N2 Diffusion Flame Diluted with CO2, Int. J. Energy Research.vol.29, pp107-120
[2004]
1) J. Park*, D.J. Hwang, J.O. Chung, S.I. Keel, and S.B. Lee (2004). Comparative Study of Flame Structures and NOx Emission Characteristics in FIR and FGR Combustion System.Int. J. Energy Research. vol. 28, pp861-885.
2) J. Park*, D.J. Hwang, K.T. Kim,S.B. Lee and S.I. Keel (2004). Evaluation of Chemical Effects of Added CO2 According to Flame Location. Int. J. Energy Research. vol. 28, pp551-565.
3) C.B. Oh, C.E. Lee* and J. Park (2004) Numerical Investigation of Extinction in Counterflow Nonpremixed Flame Perturbed by a Vortex. Combust Flame. vol. 138, pp225-241.
4) J. Park*, S.C. Kim, S.I. Keel, D.S. Noh and C.B. Oh, D. Chung (2004) Effect of Steam Addition on Flame Structure and NO Formation in H2-O2-N2 Diffusion Flame. lnt. J. Energy Research. vol. 28, pp1075-1088.
5) D.J. Hwang, J.W. Choi, J. Park*, S.I. keel, C.B Ch and D.S. Noh (2004). Numerical study on Flame Structure and No Formation in CH4-O2-N2 Counterflow Diffusion Flame Dilnted with H2O, Int. J. Energy Research. Vol. 28, pp 1255-1267.
6) J. Park*, J.W. Choi, S.G. Kim, K.T.Kim, S.I. keel, and D.S. Noh (2004). Numerical Study on Steam-added Mild Combustion, Int. J. Energy Research. vol. 28, pp1197-1212.
7) S.G. Kim, K.T. Kim, J. Park* and B.O. Chang(2004). Beavior of premixed flame fronts excited with a fuel tube resonance frequency. Combust Flame. vol. 139, pp351-357.
[2003]
1) J. Park*, S.I. Keel, S.H. Shim, and N.S. Noh (2003). Numerical Study on Flame Structure in H2-O2/CO2 Laminar Flames, Int. J. Energy Research, vol. 27,pp639-652.
2) J. Park*, J.G. Choi, S.I. Keel, and T.K. Kim (2003). Flame Structure and NO Emissions in Gas Combustion of Low Calorific Heating Value. Int. J. Energy Research. vol. 27, pp1339-1361.
3) J. Park*, D.J. Hwang, J.G. Choi, K.M. Lee, S.I. Keel, and S.H. Shim (2003). Chemical Effects of CO2 addition to oxidizer and fuel streams on Flame Structure in H2-O2 Counterflow Diffusion Flames, lnt. J. Energy Research, vol. 27,pp1205-1220
[2002]
1) J. Park*, K.H. Lee, and K.M. Lee (2002). NO emission characteristics in counterflow diffusion flame of blended fuel of H2/CO2/Ar. Int. J. Energy Research, vol.26, pp229-243.
2) J. Park*, K.H. Lee, and K.S. Kim (2002). Dilution effect of air stream on NO emission characteristic in H2/Ar counterflow diffusion flame. Int. J. of Energy Research, vol. 26, pp455-473.
3) C.E. Lee*, C.B. Oh, I.S. Jung, and J. Park (2002). A study on determination of burning velocities of LFG and LFG-mixed fuels. Fuel, vol.81, pp1679-1686.
4) K.M. Lee, T.K. Kim, S.G. Kim, J. Park*, and S.I. Keel (2002). A Visual Study on Flame Behavior of Tone-Excited Non-premixed Jet Flames. Fuel, vol.81, pp2249-2255.
5) J. Park*, S.G. Kim, K.M. Lee, and T.K. Kim (2002). Chemical Effect of Diluents on Flame Structure and NO Emission Behavior in Methane-Air Counterflow Diffusion Flame. Int. J. of Energy Research, vol.26, pp1141-1160.
6) S.G. Kim, J. Park*, and S.I. Keel (2002). Thermal and chemical contribution of added H2O and CO2 to major flame structures and NO emission characteristics in H2/N2 laminar diffusion flame. Int. J. of Energy Research, vol.26, pp1073-1086.
7) H. Kobayashi, J. Park, T. Iwashashi, and T. Niioka* (2002). Microgravity Experiments on Flame Spread of n-Decane Droplet Array in a High-Pressure Environment. Proc. Combust. Inst., vol. 29, pp2603-2610.
[2001]
1) J. Park*, K.M. Lee, and E.J. Lee (2001). Effects of ambient pressure on Flame Structure of CO/H2/N2 Counterflow Diffusion Flame. Int. J. of Energy Research, Vol.25, pp.187-205.
2) J. Park*, K.M. Lee, and E.J. Lee (2001). Effects of CO2 addition on flame structure in counterflow diffusion flame of H2/CO2/N2 fuel. Int. J. of Energy Research, vol.25, pp.469-485.
3) C.E. Lee, S.R. Lee, J.W. Han, and J. Park (2001). Numerical Study on effect of CO2 addition on flame structure and NOx formation in counterflow diffusion flame of CH4/air. Int. J. of Energy Research, vol.25, pp.343-354.
[1999]
1) J. Park*, H. Kobayashi, and T. Niioka (1999). A Study of Flame Spread Along An Droplet Array at Elevated Pressures up to A Supercritical Pressure. Int. J. of Energy Research, Vol.23, pp.813-826
2) J. Park*, H. Kobayashi, and T. Niioka(1999). Flame Spread Behavior of Blended Fuel Droplet Array. Int. J. of Energy Research, Vol.23, pp.1305-1322
[1997]
1) J. Park and H.D. Shin* (1997). Experimental Investigation of the Developing Process of an Unsteady Diffusion Flame. Combust. Flame, Vol.110, p67
[1993]
1) T.K. Kim, J. Park, and H.D. Shin* (1993). Mixing Mechanism Near the Nozzle Exit in a Tone Excited Nonpremixed Jet Flame. Comb. Sci. Tech., Vol. 89, p83