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潜热储能系统的传热及热力学优化研究 论文
$ `$ R7 k4 C7 B( N, |来源《新能源》3 x5 l7 o8 @+ L: G% [
潜热储能系统的传热及热力学优化研究 Study on Heat Transfer and Thermodynamics Optimization of Latent Thermal Storage System 张正国 余晓福 王世平 摘 要:介绍了相变潜热储能系统的组成、特点及其传热和热力学优化研究.+ O9 Y a9 P* j' |9 d$ S
关键词:潜热储能 传热 热力学优化 相变储能* _9 ?/ Z1 k" r& l
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基金项目:教育部重点基金和广东省自然科学基金资助
) z$ }( f& b( W9 {3 @ 参考文献:
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% S" a2 X# {, d[5]Kurklu A. Energy Conversion and Management, 1997,38(4) :333~340* C6 ?: j. {, y5 O& E- i) j
[6]Gong Zhen xiang, Mujumdar A S. Cyclic heat transfer in a novel storage unit of multiple phase change materials. Applied Thermal Engineering, 1996,16(10) :807~815
+ d1 |+ p2 i0 Z" R7 m[7]Takeuchi H, Pyatenko A.Yamagishi Y, et al.Characteristic of microencapsulated phase change material slurry as energy transportation refrigerant. Thermal Science & Engineering, 1998,6(1): 163~1670 C9 q3 f% w* m
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2 o1 q( |: V) h( l8 @[14]Zhang Yuwen, Faghri A. Semi-analytical solution of thermal energy storage system with conjugate laminar forced convection. Iht J Heat Mass Transfer, 1996,39(4): 717~7244 g7 s2 q, x# B0 P9 O, E \
[15]赫俏,张仁元.相变储能换热器中传热问题的研究@热力发电,1997(4):15~198 }# F! [9 A7 Y! H6 }0 g
[16]Bejan A. Advanced Engineering Thermodynamics. New York: John Wiley & Sons, 1988
1 t8 v# l$ F$ T4 \7 w( R[17]王剑锋,陆国强.陈光明.组合式相变材料储能系统性能研究.新能源,1997,19(4):7~11
% l- U; _. w: L" ]1 l9 H[18]El-Dessouky H, Ac-Juwayhel F. Effective of a thermal energy storage system using phasechange materials. Energy Convers Mgmt,1997,38(6) :601~617
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发表于 2007-3-23 23:21:15
