制冷学报
製冷學報
제랭학보
Journal of Refrigeration
2015年
5期
65-73
,共9页
冰蓄冷%多孔材料%模拟%聚氨酯泡沫%孔隙参数
冰蓄冷%多孔材料%模擬%聚氨酯泡沫%孔隙參數
빙축랭%다공재료%모의%취안지포말%공극삼수
ice cold-hold%porous material%simulation%polyurethane foam%pore parameter
建立了填充泡沫材料冰蓄冷板内冰融化过程的数学物理模型,该模型考虑了融化液态水自然对流的影响。分别数值模拟了填充开孔聚氨酯泡沫、泡沫铜的冰蓄冷板的融化过程,研究了泡沫材料冰蓄冷板融化过程的速率、温度分布、相界面移动等规律。进行了实验对比,验证分析了泡沫材料的孔隙参数对融化速率的影响。结果表明,填充低导热系数泡沫材料可有效延长冰蓄冷板的释冷时间,该时间随泡沫孔密度的减小而增加、随孔隙率的增大而略减。填充高导热系数泡沫材料可有效改善冰蓄冷板温度分布,可加快冰融化速率,该速率随着泡沫孔隙率的减少而增加、随孔密度的减少而略增。
建立瞭填充泡沫材料冰蓄冷闆內冰融化過程的數學物理模型,該模型攷慮瞭融化液態水自然對流的影響。分彆數值模擬瞭填充開孔聚氨酯泡沫、泡沫銅的冰蓄冷闆的融化過程,研究瞭泡沫材料冰蓄冷闆融化過程的速率、溫度分佈、相界麵移動等規律。進行瞭實驗對比,驗證分析瞭泡沫材料的孔隙參數對融化速率的影響。結果錶明,填充低導熱繫數泡沫材料可有效延長冰蓄冷闆的釋冷時間,該時間隨泡沫孔密度的減小而增加、隨孔隙率的增大而略減。填充高導熱繫數泡沫材料可有效改善冰蓄冷闆溫度分佈,可加快冰融化速率,該速率隨著泡沫孔隙率的減少而增加、隨孔密度的減少而略增。
건립료전충포말재료빙축랭판내빙융화과정적수학물리모형,해모형고필료융화액태수자연대류적영향。분별수치모의료전충개공취안지포말、포말동적빙축랭판적융화과정,연구료포말재료빙축랭판융화과정적속솔、온도분포、상계면이동등규률。진행료실험대비,험증분석료포말재료적공극삼수대융화속솔적영향。결과표명,전충저도열계수포말재료가유효연장빙축랭판적석랭시간,해시간수포말공밀도적감소이증가、수공극솔적증대이략감。전충고도열계수포말재료가유효개선빙축랭판온도분포,가가쾌빙융화속솔,해속솔수착포말공극솔적감소이증가、수공밀도적감소이략증。
A physical and mathematical model to describe the melting process in foam-filled ice cold-plate was developed. The natural convection of liquid water was taken into account. The melting processes of ice cold-plates filled with open-cell polyurethane foams and copper foams were simulated. The principles of the melting rates, temperature distributions, interface movements were analyzed. Compari-sons were made between the model predictions and experimental data. The influences of foams pore parameters to ice melting rates were confirmed. The results indicate that foams with low thermal conductivity efficiently extends the melting time. The time increases obviously with the decrease of pore density and increases slowly with the increase of porosity. In contrast, the foams with high thermal conductivity effectively improve the temperature distribution and accelerate the melting rate. The rate increases obviously with the decrease of porosity and increases slightly with the decrease of pore density.