Simulation and Experimental Study of a Thin Multi-Tube Compound Parabolic Condenser Linear Fresnel Spot System

Bobin Wei; Linggang Kong; Qing'an Jiang; Yumei Cao

doi:10.3788/LOP56.030801

[1] Wang J, Dong M L, Li W et al. Photogrammetric method for large trough solar reflector[J]. Laser & Optoelectronics Progress, 55, 051204(2018).

[2] Shi X, Sun C, Wang X Q et al. One-dimensional diffraction grating structure for rear reflection surface of thin film silicon solar cells[J]. Laser & Optoelectronics Progress, 55, 010501(2018).

[3] Han X B, Wei X D, Lu Z W et al. Review of concentration system in solar thermal power plant[J]. Chinese Optics, 4, 233-239(2011).

[4] He Y L, Wang K, Du B C et al. Non-uniform characteristics of solar flux distribution in the concentrating solar power systems and its corresponding solutions: a review[J]. Chinese Science Bulletin, 61, 3208-3237(2016).

[5] Jing L, Wang Y, Zhao H F et al. Design of uniform-irradiance concentrator for concentration photovoltaics system[J]. Acta Optica Sinica, 34, 0208001(2014).

[6] Che S P. Research of optical and thermal properties of linear Fresnel reflector[D]. Jinan: Shandong University(2012).

[7] Liu Y Y, Chen H J, Xiong Y G et al. Application of compound parabolic concentrator in linear Fresnel spot light[J]. Solar Energy, 9, 41-43(2013).

[8] Qiu Y, He Y L, Liang Q et al. A MCRT-FVM simulation method for the coupled photo-thermal conversion process in a linear Fresnel reflector solar collector[J]. Journal of Engineering Thermophysics, 37, 2142-2150(2016).

[9] Qiu Y, He Y L, Cheng Z D et al. Study on optical and thermal performance of a linear Fresnel solar reflector using molten salt as HTF with MCRT and FVM methods[J]. Applied Energy, 146, 162-173(2015). http://www.sciencedirect.com/science/article/pii/S0306261915001762

[10] Qiu Y, He Y L, Cheng Z D. Optical performance investigation and optimization of a linear Fresnel reflector solar collector[J]. Journal of Engineering Thermophysics, 36, 2551-2557(2015).

[11] Ouyang H Y, Niu Y G, Wang H L et al[J]. Design of a micro arc linear Fresnel solar heat collector Electrical Automation, 2015, 41-44.

[12] Hack M, Zhu G D, Wendelin T. Evaluation and comparison of an adaptive method technique for improved performance of linear Fresnel secondary designs[J]. Applied Energy, 208, 1441-1451(2017).

[13] Zhu G D. New adaptive method to optimize the secondary reflector of linear Fresnel collectors[J]. Solar Energy, 144, 117-126(2017).

[14] Wang C L, Ma J, Fan D W. Arrangement and optimization of mirror field for linear Fresnel reflector system[J]. Optics and Precision Engineering, 23, 78-82(2015).

[15] Wang C L, Ma J, Fan D W. Design and optimization of single tube receiver for linear Fresnel spot system[J]. Chinese Science (Technical Science), 44, 597-602(2014).

[16] Song J H, Ma J S, Chen Y et al. Experimental study on performance of line Fresnel collector in triangular cavity[J]. Journal of Engineering for Thermal Energy and Power, 31, 103-108(2016).

[17] Du C X, Wang P, Ma C F et al. Vector algorithm for tracking inclination of Fresnel solar concentration system[J]. Journal of Solar Energy, 32, 831-835(2011).

[18] Liu M Y, Qi H Q, Zheng J T et al. Economic analysis of Fresnel solar thermal power system[J]. Energy Conservation Technology, 34, 353-556(2016).

[19] Li Q M, Zheng J T, Xu H W et al. Development of linear Fresnel solar thermal power generation technology[J]. Solar Energy, 7, 41-45(2012).

[20] Chen Y P. Application and prospect of concentrating solar energy power plant (CSP) technology[J]. Power System and Clean Energy, 26, 29-33(2010).