Study on temperature and phase change of water droplet in the process of flash under low pressure

Weimin Liu; Qincheng Bi; Dong Yang; Mingxiao Dong; Fangcheng Qi; Xingang Bi

Study on temperature and phase change of water droplet in the process of flash under low pressure

Weimin Liu, Qincheng Bi, Dong Yang, Mingxiao Dong, Fangcheng Qi, Xingang Bi

Xi'an Jiaotong University

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Within the range of low ambient pressures from 200 to 800 Pa, the experiments have been performed to investigate the relation between the ambient pressure and temperature change in the process of the flash of water droplets. Experimental results show that the possibility of bubble created is enhanced since the superheat inside the water droplet is increased with the ambient pressure falls. The rates of bubble growth and water droplet burst are affected by the ambient pressure. The temperature leap is affected by the deviation between the droplet center and the thermocouple, and the temperature leap is great in the center of water droplet. Therefore, the process of the flash is in thermodynamic nonequilibrium condition. Because of the influence of evaporation of water droplet and existence of evaporation wave in the process of flash, there exists minute pressure around the water droplet, even if in the vacuum.

Original language	English
Pages (from-to)	381-387
Number of pages	7
Journal	Yingyong Jichu yu Gongcheng Kexue Xuebao/Journal of Basic Science and Engineering
Volume	13
Issue number	4
State	Published - Dec 2005
Externally published	Yes

Keywords

Flash
Freezing
Low pressure
Phase change
Water droplet

Cite this

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title = "Study on temperature and phase change of water droplet in the process of flash under low pressure",

abstract = "Within the range of low ambient pressures from 200 to 800 Pa, the experiments have been performed to investigate the relation between the ambient pressure and temperature change in the process of the flash of water droplets. Experimental results show that the possibility of bubble created is enhanced since the superheat inside the water droplet is increased with the ambient pressure falls. The rates of bubble growth and water droplet burst are affected by the ambient pressure. The temperature leap is affected by the deviation between the droplet center and the thermocouple, and the temperature leap is great in the center of water droplet. Therefore, the process of the flash is in thermodynamic nonequilibrium condition. Because of the influence of evaporation of water droplet and existence of evaporation wave in the process of flash, there exists minute pressure around the water droplet, even if in the vacuum.",

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author = "Weimin Liu and Qincheng Bi and Dong Yang and Mingxiao Dong and Fangcheng Qi and Xingang Bi",

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TY - JOUR

T1 - Study on temperature and phase change of water droplet in the process of flash under low pressure

AU - Liu, Weimin

AU - Bi, Qincheng

AU - Yang, Dong

AU - Dong, Mingxiao

AU - Qi, Fangcheng

AU - Bi, Xingang

PY - 2005/12

Y1 - 2005/12

N2 - Within the range of low ambient pressures from 200 to 800 Pa, the experiments have been performed to investigate the relation between the ambient pressure and temperature change in the process of the flash of water droplets. Experimental results show that the possibility of bubble created is enhanced since the superheat inside the water droplet is increased with the ambient pressure falls. The rates of bubble growth and water droplet burst are affected by the ambient pressure. The temperature leap is affected by the deviation between the droplet center and the thermocouple, and the temperature leap is great in the center of water droplet. Therefore, the process of the flash is in thermodynamic nonequilibrium condition. Because of the influence of evaporation of water droplet and existence of evaporation wave in the process of flash, there exists minute pressure around the water droplet, even if in the vacuum.

AB - Within the range of low ambient pressures from 200 to 800 Pa, the experiments have been performed to investigate the relation between the ambient pressure and temperature change in the process of the flash of water droplets. Experimental results show that the possibility of bubble created is enhanced since the superheat inside the water droplet is increased with the ambient pressure falls. The rates of bubble growth and water droplet burst are affected by the ambient pressure. The temperature leap is affected by the deviation between the droplet center and the thermocouple, and the temperature leap is great in the center of water droplet. Therefore, the process of the flash is in thermodynamic nonequilibrium condition. Because of the influence of evaporation of water droplet and existence of evaporation wave in the process of flash, there exists minute pressure around the water droplet, even if in the vacuum.

KW - Flash

KW - Freezing

KW - Low pressure

KW - Phase change

KW - Water droplet

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SN - 1005-0930

VL - 13

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JO - Yingyong Jichu yu Gongcheng Kexue Xuebao/Journal of Basic Science and Engineering

JF - Yingyong Jichu yu Gongcheng Kexue Xuebao/Journal of Basic Science and Engineering

IS - 4

ER -

Study on temperature and phase change of water droplet in the process of flash under low pressure

Abstract

Keywords

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