Evaporative supercooling characteristics of single water droplet in ice-slurry production system with evaporative supercooled water

doi:10.3969/j.issn.0438-1157.2012.11.008

CIESC Journal ›› 2012, Vol. 63 ›› Issue (11): 3434-3439.DOI: 10.3969/j.issn.0438-1157.2012.11.008

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Evaporative supercooling characteristics of single water droplet in ice-slurry production system with evaporative supercooled water

YAN Junhai, ZHANG Xiaosong

School of Energy and Environment, Southeast University, Nanjing 210096, Jiangsu, China

Received:2012-03-29 Revised:2012-06-20 Online:2012-11-05 Published:2012-11-05
Supported by:
supported by the National Natural Science Foundation of China(50976021)and the 12th Five Year National Science and Technology Support Key Project of China(2011BAJ03B14).

蒸发式过冷水制冰中单个水滴的蒸发过冷特性

闫俊海, 张小松

东南大学能源与环境学院, 江苏南京 210096

通讯作者: 闫俊海
作者简介:闫俊海(1980-),男,博士研究生。
基金资助:
国家自然科学基金项目(50976021);国家"十二五"科技支撑计划项目(2011BAJ03B14)。

Abstract

Abstract: To analyze the evaporation characteristics of single water droplet in low temperature and low humidity ratio air in ice production system with evaporative supercooled water,a mathematical model of evaporative supercooling process of single water droplet was proposed.The evaporation process of droplet in supercooling stage was simulated with theoretical model and the results are basically consistent with the experiment on suspended single water droplet,so it is feasible to predict the evaporative supercooling characteristics of small water droplet by the mathematical model.The influence of initial diameter and temperature of water droplet,air temperature,humidity ratio of air,and air velocity on the temperature of water droplet during its evaporative supercooling process was analyzed.The numerical results show that smaller diameter and lower temperature of water droplet and larger air velocity can increase the cooling rate of water droplet and shorten the supercooling time reaching steady state evaporation stage.Additionally,lowering the temperature or humidity ratio of air can not only improve the cooling rate of water droplet,but also increase the supercooling degree of water droplet reaching steady state evaporation stage.The investigation of evaporative supercooling process of water droplet can provide a foundation for improving the efficiency of ice production and optimal design for ice-making system with evaporative supercooled water.

Key words: water droplet, evaporation, supercooled water

摘要： 为分析蒸发式过冷水制冰中单个水滴在此低温低湿空气环境中的蒸发特性,建立了水滴蒸发过冷过程的数理模型。通过悬挂水滴实验与模拟结果的对比,验证了模型的有效性。因此利用该数学模型预测微小直径水滴的蒸发特性是可行的。通过模拟计算获得了水滴初始直径、初始水温、空气温度、空气含湿量和空气流速对水滴蒸发过冷过程的影响。结果表明,水滴初始直径越小、温度越低或空气流速越大,水滴的冷却速率就越大,达到稳态时的过冷时间就越短。另外,通过降低空气温度或含湿量不仅提高了水滴的冷却速率,而且增加了水滴达到稳态时的过冷度。通过水滴蒸发过冷特性的分析,可为制冰系统的优化设计及提高系统制冰效率提供理论参考。

关键词: 水滴, 蒸发, 过冷水

CLC Number:

TK02

YAN Junhai, ZHANG Xiaosong. Evaporative supercooling characteristics of single water droplet in ice-slurry production system with evaporative supercooled water[J]. CIESC Journal, 2012, 63(11): 3434-3439.

闫俊海, 张小松. 蒸发式过冷水制冰中单个水滴的蒸发过冷特性[J]. 化工学报, 2012, 63(11): 3434-3439.

References 11

[1]	Cerci Y.A new ideal evaporative freezing cycle[J].International Journal of Heat and Mass Transfer,2003,46(16):2967-2974
[2]	Li X W,Zhang X S,Cao R Q,Fu X Z.A novel ice slurry producing system:producing ice by utilizing inner waste heat[J].Energy Conversion and Management,2009,50(12):2893-2904
[3]	Yao G F,Abdel-Khalik S I,Ghiaasiaan S M.An investigation of simple evaporation models used in spray simulations[J].Journal of Heat Transfer-Transactions of the ASME,2003,125(1):179-182
[4]	Miller R S,Harstad K,Bellan J.Evaluation of equilibrium and non-equilibrium evaporation models for many-droplet gas-liquid flow simulations[J].International Journal of Multiphase Flow,1998,24(6):1025-1055
[5]	Kolaitis D I,Founti M A.A comparative study of numerical models for Eulerian-Lagrangian simulations of turbulent evaporating sprays[J].International Journal of Heat and Fluid Flow,2006,27(3):424-435
[6]	Strub M,Jabbour O,Strub F,Bedecarrats J P. Experimental study and modeling of the crystallization of a water droplet[J].International Journal of Refrigeration,2003,26(1):59-68
[7]	Shin H T,Lee Y P,Jurng J.Spherical-shaped ice particle production by spraying water in a vacuum chamber[J].Applied Thermal Engineering,2000,20(5):439-454
[8]	Aguilar G,Majaron B,Verkruysse W,Zhou Y. Theoretical and experimental analysis of droplet diameter,temperature,and evaporation rate evolution in cryogenic sprays[J].International Journal of Heat and Mass Transfer,2001,44(17):3201-3211
[9]	Ge Yiqun(葛轶群),Zhang Xuelai(章学来),Liu Jianning(刘剑宁),Zhao Lan(赵兰).Analysis and study of binary ice vacuum making technique[J].Heating Ventilating & Air Conditioning(暖通空调),2007,37(3):10-14
[10]	Hindmarsh J P,Russell A B,Chen X D.Experimental and numerical analysis of the temperature transition of a suspended freezing water droplet[J].International Journal of Heat and Mass Transfer,2003,46(7):1199-1213
[11]	Castaing-Lasvignottes J,David T,Bedecarrats J P,Strub F.Dynamic modeling and experimental study of an ice generator heat exchanger using supercooled water[J].Energy Conversion and Management,2006,47(20):3644-3651

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Evaporative supercooling characteristics of single water droplet in ice-slurry production system with evaporative supercooled water

蒸发式过冷水制冰中单个水滴的蒸发过冷特性

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