Experiment on Evaporation Characteristics of Fuel Droplet in High Temperature and High Pressure Environment

被引：0

作者：

Ni Z. ^{[1
]}

Han K. ^{[1
]}

Pang B. ^{[1
]}

Chen H. ^{[1
]}

机构：

[1] School of Mechanical Engineering, Beijing Institute of Technology, Beijing

来源：

Neiranji Xuebao/Transactions of CSICE (Chinese Society for Internal Combustion Engines) | 2019年 / 37卷 / 06期

关键词：

Droplet evaporation; Fuel properties; High temperature and high pressure;

D O I：

10.16236/j.cnki.nrjxb.201906069

中图分类号：

学科分类号：

摘要：

In order to investigate the influence of environmental properties and fuel properties on the evaporation characteristics of mono-component droplet, a high temperature and high pressure droplet evaporation system was built.After that, the evaporation processes of n-heptane, n-dodecane and n-hexadecane droplets under high temperature and high pressure were analyzed with the established system.The results show that, when the ambient temperature exceeds the critical temperature of the fuel and the ambient pressure is close to the critical pressure of the fuel, high-density vapor appears around the droplet, and the density of the high-density vapor increases under higher pressure.In addition, as the ambient temperature increases, the increase of environmental pressure first decelerates and then accelerates the droplet evaporation rate, which is consistent for different fuel droplets.At a certain temperature closing to the critical temperature of the fuel, the change of environmental pressure has little influence on the evaporation rate of fuel droplets.Further, the evaporation rate of different fuel droplets all increases at higher ambient temperature under all pressure cases.Higher environmental pressure also leads to the larger increase of evaporation rate under higher ambient temperature. © 2019, Editorial Office of the Transaction of CSICE. All right reserved.

引用

页码：536 / 540

页数：4

共 14 条

[1] Ghassemi H., Baek S.K., Khan Q.S., Experimental study on evaporation of kerosene droples at elevated pressures and temperatures, Combustion Science and Technology, 178, 9, pp. 1669-1684, (2006)
[2] Avulapati M.M., Ganippa L.C., Xia J., Et al., Puffing and micro-explosion of diesel-biodiesel-ethanol blends, Fuel, 166, pp. 59-66, (2016)
[3] Mura E., Calabria R., Califano V., Et al., Emulsion droplet micro-explosion: Analysis of two experimental approaches, Experimental Thermal & Fluid Science, 56, 4, pp. 69-74, (2013)
[4] Watanabe H., Shoji Y., Yamagaki T., Et al., Observation of droplet behavior of emulsified fuel in secondary atomization in flame, Journal of Thermal Science & Technology, 9, 2, pp. 377-387, (2014)
[5] Wang C.H., Pan K.L., Huang W.C., Et al., Effects of fuel properties on the burning characteristics of collisionmerged alkane/water droplets, Experimental Thermal and Fluid Science, 32, 5, pp. 1049-1058, (2008)
[6] Hashimoto N., Nomura H., Suzuki M., Et al., Evaporation characteristics of a palm methyl ester droplet at high ambient temperatures, Fuel, 143, pp. 202-210, (2015)
[7] Sato J., Studies on droplet evaporation and combustion in high pressures, 31st Aerospace Sciences Meeting, (1993)
[8] Nomura H., Ujiie Y., Rath H.J., Et al., Experimental study on high-pressure droplet evaporation using microgravity conditions, Symposium (International) on Combustion, 26, 1, pp. 1267-1273, (1996)
[9] Kai H., Hao C., Bo Y., Et al., Experimental investigation on droplet burning characteristics of diesel-benzyl azides blend, Fuel, 190, 10, pp. 32-40, (2017)
[10] Nomura H., Takahiro M., Yusuke S., Et al., Microgravity experiments of fuel droplet evaporation in sub-and supercritical environments, Proceedings of the Combustion Institute, 36, 2, pp. 2425-2432, (2017)

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