Thick Exchange Layer Evaporation Model withNatural Convection Effect for MulticomponentDroplet and Its Validation
1.School of Energy and Power Engineering,Beihang University,Beijing 100191,China;2.Collaborative Innovation Center of Advanced Aero-Engine,Beijing 100191,China
[1] 王建昕, 闫小光, 程 勇, 等. 乙醇-柴油混合燃料的燃烧与排放特性[J]. 内燃机学报, 2002, 20(3): 225-229.
[2] 刘 宇, 曾 文, 马洪安, 等. 氢气添加对RP-3航空煤油着火特性的影响[J]. 推进技术, 2016, 37(9):1742-1751.
[3] 赵清华, 吴心平. 普通汽油与乙醇汽油的蒸发性分析[J]. 汽车实用技术, 2012, (7): 83-86.
[4] 王仙菊. 不同比例乙醇汽油蒸发性的测定实验[J]. 化学工程与装备, 2011, (10): 190-194.
[5] 黄艳仙, 莫桂娣, 黄克明, 等. 乙醇体积分数对乙醇汽油蒸发性能的影响研究[J]. 化学与生物工程, 2009, 26(7): 40-41.
[6] 曾东建, 杨建军, 姚 英. 不同比例乙醇汽油蒸发性实验研究[J]. 小型内燃机与摩托车, 2008, (1): 71-74.
[7] Godsave A E. Studies of the Combustion of Drops in a Fuel Spray: the Burning of Single Droplets of Fuel[C]. Baltimore M D: Proceedings of the 4th Symposium on Combustion, 1953: 818-830.
[8] Spalding D B. Experiments on the Burning and Extinction of Liquid Fuel Spheres[J]. Fuel, 1953, 3(2): 169–188.
[9] Law C K. Unsteady Droplet Vaporization with Droplet Heating[J]. Combustion and Flame, 1976, 26:17-22.
[10] Law C K, Sirignano W A. Unsteady Droplet Combustion with Droplet Heating II, Conduction Limit[J]. Combustion and Flame, 1977, 29: 175-186.
[11] Prakash S, Sirignano W A. Theory of Convective Droplet Vaporization with Unsteady Heat Transfer in the Circulating Liquid Phase[J]. International Journal of Heat and Mass Transfer, 1980, 23(3): 253-268.
[12] Prakash S, Sirigano W A. Liquid Fuel Droplet Heating with Internal Circulation[J]. International Journal of Heat and Mass Transfer, 1978, 21(7): 885-895.
[13] Ranz W E, Marshall W R. Evaporation from Drops—I-II[J]. Chemical Engineering Progress, 1952, 48(141):141-146.
[14] Abramzon B, Sirignano W A. Droplet Vaporization Model for Spray Combustion Calculations[J]. International Journal of Heat and Mass Transfer, 2013, 56(9): 1605-1618.
[15] Bellan J, Harstad K. The Details of the Convective Evaporation of Dense and Dilute Clusters of Drops[J]. International Journal of Heat and Mass Transfer, 1987, 30(6): 1083-1093.
[16] Landis R B, Mills A F. Effect of Internal Diffusional Resistance on the Evaporation of Binary Droplets[M]. Russia: Begel House Inc, 1974.
[17] Da??f A, Bouaziz M, Chesneau X, et al. Comparison of Multicomponent Fuel Droplet Vaporization Experiments in Forced Convection with the Sirignano Model[J]. Experimental Thermal & Fluid Science, 1998, 18(4): 282-290.
[18] Ravindran E P, Davis J. Multicomponent Evaporation of Single Aerosol Droplets[J]. Journal of Colloid & Interface Science, 1982, 85(1): 278-288.
[19] Ghamari M, Ratner A. Combustion Characteristics of Diesel and Jet-A Droplets Blended with Polymeric Additive[J]. Fuel, 2016, 178: 63-70.
[20] Gavhane S, Pati S, Som S K. Evaporation of Multicomponent Liquid Fuel Droplets: Influences of Component Composition in Droplet and Vapor Concentration in Free Stream Ambience[J]. International Journal of Thermal Sciences, 2016, 105: 83-95.
[21] Megaridis C M. Liquid-Phase Variable Property Effects in Multicomponent Droplet Convective Evaporation[J]. Combustion Science & Technology, 1993, 92(4-6): 291-311.
[22] Liu Y C, Avedisian C T. A Comparison of the Spherical Flame Characteristics of Sub-Millimeter Droplets of Binary Mixtures of N-heptane/Iso-octane and N-heptane/Toluene with a Commercial Unleaded Gasoline[J]. Combustion & Flame, 2012, 159(2): 770-783.
[23] Stengele J, Prommersberger K, Willmann M, et al. Experimental and Theoretical Study of One- and Two-component Droplet Vaporization in a High Pressure Environment[J]. International Journal of Heat and Mass Transfer, 1999, 42(14): 2683-2694.
[24] Ghassemi H, Baek S, Khan Q. Experimental Study on Binary Droplet Evaporation at Elevated Pressure and Temperature[C]. Reno: AIAA Aerospace Sciences Meeting and Exhibit, 2005.
[25] Aharon I, Shaw B D. Marangoni Instability of Bi-component Droplet Gasification[J]. Physics of Fluids A, 1996, 8: 1820-1827.
[26] Ha V M , Lai C L. Onset of Marangoni Instability of a Two-Component Evaporating Droplet[J]. International Journal of Heat & Mass Transfer, 2002, 45(26):5143-58.
[27] 赵 鹏. 燃油液滴蒸发过程传热传质机理的数值模拟与实验研究[D]. 北京:北京交通大学, 2012.
[28] Mercier X, Orain M, Grisch F. Experiments on Droplet Combustion in Strained Counterflow Diffusion Flames Using Planar Laser-Induced Fluorescence[J]. Applied Physics B, 2007, 88(1): 151-160.
[29] Wang F, Yao J. A New Stationary Droplet Evaporation Model and Its Validation[J]. Chinese Journal of Aeronautics, 2017, 30(4): 1407-1416.
[30] Wang F, Liu R. Kerosene Evaporation Rate in High Temperature Air Stationary and Convective Environment[J]. Fuel, 2018, 211: 582-590.
[31] Sirignano W. Fluid Dynamics and Transport of Droplets and Sprays[M]. Cambridge: Cambridge University Press, 1999.
[32] Continillo G, Sirignano W A. Unsteady, Spherically-Symmetric Flame Propagation Through Multicomponent Fuel Spray Clouds. Modern Research Topics in Aerospace Propulsion[M]. New York: Springer, 1991:173-198.
[33] Faeth G M. Evaporation and Combustion of Sprays[J]. Progress in Energy & Combustion Science, 1983, 9(1):1-76.
[34] Chen L, Liu Z, Lin Y, et al. Different Spray Droplet Evaporation Models for Non-Ideal Multi-Component Fuels with Experimental Validation[J]. International Journal of Heat and Mass Transfer, 2016, 94(3): 292-300.
[35] 周力行. 燃烧理论和化学流体力学[M]. 北京:科学出版社, 1986: 148-154.
[36] Javed I, Baek S W, Waheed K. Evaporation Characteristics of Heptane Droplets with the Addition of Aluminum Nanoparticles at Elevated Temperatures[J]. Combustion & Flame, 2013, 160(1): 170-183.