Focusing Characteristics of Dish Solar Concentrator Formed by Rotating Array of Parabolic/Spherical Mirrors with Same Size

Jian Yan; YongXiang Liu; YaoSong Hu; YouDuo Peng

doi:10.3788/AOS202242.1522002

[1] Wang Z F, He Y L, Kang C Q et al. Strategic positioning of solar thermal power generation to promote technological progress[J]. Huadian Technology, 43, 1-4(2021).

[2] Li M C, Gao Z L, Wang L Z et al. Development status and prospect of solar energy utilization technology in China under goal of emission peak and carbon neutrality[J]. Solar Energy, 13-18(2021).

[3] He Y L, Qiu Y, Wang K et al. Perspective of concentrating solar power[J]. Energy, 198, 117373(2020).

[4] Yan J, Peng Y D, Cheng Z R et al. Design and implementation of a 38 kW dish-Stirling concentrated solar power system[J]. IOP Conference Series, 93, 012052(2017).

[5] Schmitz M, Wiik N, Ambrosetti G et al. A 6-focus high-concentration photovoltaic-thermal dish system[J]. Solar Energy, 155, 445-463(2017).

[6] He Y L, Wang K, Qiu Y et al. Review of the solar flux distribution in concentrated solar power: non-uniform features, challenges, and solutions[J]. Applied Thermal Engineering, 149, 448-474(2019).

[7] Yan J, Nie D Z, Tian Y et al. Optimal design of concave lens for flux homogenization of solar dish/cavity collector system[J]. Acta Optica Sinica, 41, 1022001(2021).

[8] Yan J, Nie D Z, Peng Y D et al. Design of solar dish concentrator for improving flux uniformity on planar receiver[J]. Acta Optica Sinica, 40, 0922002(2020).

[9] Chong K K, Siaw F L, Wong C W et al. Design and construction of non-imaging planar concentrator for concentrator photovoltaic system[J]. Renewable Energy, 34, 1364-1370(2009).

[10] Tan M H, Chong K K, Wong C W. Optical characterization of nonimaging dish concentrator for the application of dense-array concentrator photovoltaic system[J]. Applied Optics, 53, 475-486(2014).

[11] Wang Y F, Ji J, Li M et al. Performance analysis and design of multi-plane mirrors linear combination solar concentrator[J]. Acta Optica Sinica, 36, 0422002(2016).

[12] Xia X L, Dai G L, Shuai Y. Experimental and numerical investigation on solar concentrating characteristics of a sixteen-dish concentrator[J]. International Journal of Hydrogen Energy, 37, 18694-18703(2012).

[13] Mao Q J, Shuai Y, Yuan Y. Study on radiation flux of the receiver with a parabolic solar concentrator system[J]. Energy Conversion and Management, 84, 1-6(2014).

[14] Riveros-Rosas D, Sánchez-González M, Arancibia-Bulnes C A et al. Influence of the size of facets on point focus solar concentrators[J]. Renewable Energy, 36, 966-970(2011).

[15] Chang Q H. Study on a concentrator of confocal configuration composed of spherical facets with identical aperture and identical radius of curvature[J]. Renewable Energy, 111, 655-658(2017).

[16] Yan J, Peng Y D, Wang H. Assessing the impact of non-ideal optical factors on optimized solar dish collector system with mirror rearrangement[J]. International Journal of Energy Research, 44, 8799-8822(2020).

[17] Yan J, Peng Y D, Cheng Z R et al. Moving accumulative computation method for flux distribution of heat absorber in symmetry concentrating solar collector system[J]. Acta Optica Sinica, 36, 0508001(2016).

[18] Lü J Q, Zhang N, Yin P et al. Research progress on optically designed solar photovoltaic concentrators[J]. Laser & Optoelectronics Progress, 56, 230002(2019).