OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

化工学报 2015

泡沫金属强化石蜡相变蓄热过程可视化实验

DOI: 10.11949/j.issn.0438-1157.20141182, PP. 497-503

杨佳霖,杜小泽,杨立军,杨勇平

Keywords: 相变,多孔介质,泡沫金属,自然对流,可视化实验

Full-Text Cite this paper Add to My Lib

Abstract:

相变材料的低热导率是限制潜热蓄热广泛应用的重要原因。将相变材料石蜡真空条件下注入到泡沫金属铜内制备泡沫金属铜-石蜡复合相变材料,通过铜的高热导率及高孔隙材料的大面体比来强化相变换热过程。采用DSC示差扫描量热法对石蜡进行热物性测量获得准确的石蜡相变温度及相变潜热。以管壳式相变蓄热结构为对象,提取对称结构进行可视化设计,对比纯石蜡及泡沫金属铜-石蜡复合材料在相同运行条件下的相变过程,追踪二者熔化过程的相界面位置随时间的演化过程并布置热电偶准确测量材料内部的温度分布。结果显示加入泡沫金属后的复合材料的内部温差明显减小,温度分布均匀,蓄热热通量显著增大,有效缩短相变时间并缓解了自然对流造成的顶部过热和底部不熔化现象。

References

[1]	Yang Lei (杨磊), Zhang Xiaosong (张小松). Charge performance of packed bed thermal storage unit with phase change material having different melting points [J]. CIESC Journal (化工学报), 2012, 63 (4): 1032-1037
[2]	Zhong Y, Guo Q, Li S, Shi J, Liu L. Heat transfer enhancement of paraffin wax using graphite foam for thermal energy storage [J]. Sol. Energy Mater. Sol., Cells., 2010, 94: 1011-1014
[3]	Hu Xiaodong (胡小冬), Gao Xuenong (高学农), Li Delun (李得伦) Chen Siting (陈思婷). Performance of paraffin/expand graphite composite phase change materials [J]. CIESC Journal (化工学报), 2013, 64 (10): 3831-3837
[4]	Languri E M, Aigbotsua C O, Alvarado J L. Latent thermal energy storage system using phase change material in corrugated enclosures [J]. Appl. Therm. Eng., 2013, 50: 1008-1014
[5]	Yang Xiaoping (杨小平), Yang Xiaoxi (杨晓西), Ding Jing (丁静). The thermal analysis of porous medium for high-temperature thermal storage [J]. Journal of Engineering Thermophysics (工程热物理学报), 2012, 33 (3):477-480
[6]	Calmidi V V, Mahajan R L. The effective thermal conductivity of high porosity fibrous foams [J]. ASME Journal of Heat Transfer, 1999, 121: 466-471
[7]	Bhattacharya A, Calmidi V V, Mahajan R L. Thermophysical properties of high porosity metal foams [J]. International Journal of Heat and Mass Transfer, 2002, 45 (5): 1017-1031
[8]	Fourie G J, Du Plessis P J. Pressure drop modelling in cellular metallic foams [J]. Chemical Engineering Science, 2002, 57 (14): 2781-2789
[9]	Zhao C Y, Li S, Wei X, et al. Heat transfer enhancement of high temperature thermal energy storage using metal foams and expanded graphite [J]. Sol. Energy Mater. Sol. Cells, 2011, 95 (2): 636-643
[10]	Shankar Krishnan, Jayathi Y Murthy, Suresh V Garimella. A two-temperature model for solid-liquid phase change in metal foams [J]. J. Heat Transfer, 2004, 127 (9): 995-1004
[11]	Yang J L, Du X Z, Yang L J, Yang Y P. Numerical analysis on the thermal behavior of high temperature latent heat thermal energy storage system [J]. Sol. Energy, 2013, 98: 543-552
[12]	Peng Donghua (彭冬华), Chen Zhenqian (陈振乾), Shi Mingheng (施明恒). Numerical simulation of phase change material thawing process in metallic foams [J]. Journal of Engineering Thermophysics (工程热物理学报), 2010, 30 (6): 1025-1028
[13]	Li W Q, Qu Z G, He Y L, et al. Experimental and numerical studies on melting phase change heat transfer in open-cell metallic foams filled with paraffin [J]. Applied Thermal Engineering, 2012, 37: 1-9
[14]	Wu Zhigen (吴志根), Zhao Changying (赵长颖), Gu Qingzhi (顾清之). Heat transfer enhancement of high temperature thermal energy storage using porous materials [J]. CIESC Journal (化工学报), 2012, 63 (S1): 119-123
[15]	Zhao C Y, Lu W, Tian Y. Heat transfer enhancement for thermal energy storage using metal foams embedded within phase change materials (PCMs) [J]. Sol. Energy, 2010, 84 (8):1402-1412
[16]	Chen Z Q, Gao D Y, Shi J. Experiment and numerical study on melting of phase change materials in metal foams at pore scale [J]. International Journal of Heat and Mass Transfer, 2014, 72:646-655
[17]	Xiao Xin (肖鑫), Zhang Peng (张鹏). Thermal characterization of graphite foam/paraffin composite phase change material [J]. Journal of Engineering Thermophysics (工程热物理学报), 2013, 34 (3): 530-533
[18]	Sheng Qiang (盛强), Xing Yuming (邢玉明), Wang Ze (王泽). Preparation and performance analysis of metal foam composite phase change material [J]. CIESC Journal (化工学报), 2013, 64 (10): 3565-3570
[19]	Gil A, Medrano M, Martorell I, et al. State of the art on high temperature thermal energy storage for power generation (Ⅰ): Concepts, materials and modellization [J]. Renewable and Sustainable Energy Reviews, 2010, 14 (1): 31-55
[20]	Jegadheeswaran S, Pohekar S D. Performance enhancement in latent heat thermal storage system: a review [J]. Renewable and Sustainable Energy Reviews, 2009, 13 (9): 2225-2244
[21]	Xia Li (夏莉), Zhang Peng (张鹏), Wang Ruzhu (王如竹). Heat transfer enhancement in shell and tube latent thermal energy storage unit [J]. CIESC Journal (化工学报), 2011, 63 (S1): 37-41
[22]	Sharifi N, Bergman T L, Faghri A, Enhancement of PCM melting in enclosures with horizontally-finned internal surfaces [J]. Int. J. Heat Mass Transf., 2011, 54: 4182-4192

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133