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化工学报 2014

添加不同纳米颗粒的导热油直接吸收集热实验性能

DOI: 10.3969/j.issn.0438-1157.2014.z2.043, PP. 293-298

徐国英,李凌志,张小松,孙岳明

Keywords: 太阳能集热,纳米流体,导热油,集热效率

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Abstract:

提出并探讨了采用导热油基液纳米流体为集热介质的太阳能直接吸收式集热方法。分别对添加纳米CuO、Fe3O4、石墨颗粒的导热油基液纳米流体进行了闷晒实验研究。结果显示:添加上述纳米颗粒均可显著提高导热油对太阳辐射的吸收;80℃以内工况下,纳米流体的直接吸收集热效率要高于传统镀膜真空管内导热油间接吸收的集热效率;但在更高温度工况下的对外散热损失增大,效率迅速下降。同时,实验对比分析了纳米颗粒的添加质量分数对导热油-CuO纳米流体集热效率、散热损失系数等性能参数的影响规律,得出了最佳纳米颗粒添加比例范围。

References

[1]	Das S K, Choi U S, Patel H E. Heat transfer in nanofluids—a review[J]. Heat Transfer Engineering, 2006, 27(10): 3-19
[2]	Zhang Q C, Yin Y, Mills D R. High efficiency Mo-A12O3 cermet selective surface for high-temperature application[J]. Solar Energy Materials and Solar Ceils, 1996, 40(1): 43-53
[3]	Yǖncǖ H, Paykoc E,Yener Y. Solar Energy Utilization [M]. Boston:Kluwer Academic, 1987
[4]	Otanicar T P, Phelan P E, Prasher R S,et al. Nanofluid-based absorption solar collector[J]. Renewable Sustainable Energy, 2010, 2(3):102-115
[5]	Wang Zemin(王泽敏),Study on the absorption spectrum of γ-Fe2O3 nanoparicle[J]. Journal of Functional Materials(功能材料),2006,37(2): 284-300
[6]	Xuan Yimin(宣益民), Li Qiang(李强). Investigation on enhanced heat transfer of nanofluids[J]. Journal of Engineering Thermophysics(工程热物理学报), 2002, 23(6): 721-723
[7]	Cheng Bo(程波), Du Kai(杜垲), Zhang Xiaosong(张小松). Influence of stability of carbon black nano-particle suspension of ammonia solution[J]. Journal of Chemical Industry and Engineering(China)(化工学报), 2008, 59(S2): 49-52
[8]	Tyagi H, Phelan P, Prasher R. Predicted efficiency of a low temperature nanofluid based direct absorption solar collector[J]. Journal of Solar Energy Engineering, 2009, 131: 4-10
[9]	Mao Lingbo(毛凌波), Zhang Renyuan(张仁元), Ke Xiufang(柯秀芳), Liu Zongjian(刘宗建).Photo-thermal properties of nanofluid-based solar collector[J]. Acta Energiae Solaris Sinica(太阳能学报),2009, 30(12): 1647-1652
[10]	Zhao Jiafei(赵佳飞). Study of nanofluids' radiation properties and its utilization in photovoltaic/thermal system[D]. Hangzhou:Zhejiang University, 2009
[11]	Otanicar T P, Phelan P E, Golden J S. Optical properties of liquids for direct absorption solar thermal energy systems[J]. Solar Energy, 2009, 83(7): 969-977
[12]	Li Lingzhi(李凌志). Stability and direct solar radiation absorption collection of heat-transfer oil-based nanofluid[D]. Nanjing: Southeast University, 2014

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