塔式太阳能电站定日镜瞄准策略优化方法OA
Optimal design of aiming strategy for solar power tower stations
为了使吸热器表面能流呈均匀分布,提出了一种塔式太阳能电站定日镜瞄准策略优化方法.首先,基于全场定日镜瞬时光学效率的计算结果对镜场进行分区,对不同分区的定日镜设计不同的瞄准因子;然后,根据瞄准因子计算定日镜的光斑尺寸,通过光斑尺寸与吸热器尺寸比值确定光斑相对大小,并规划瞄准点分布;最后,利用遗传算法优化定日镜瞄准点分布,实现吸热器表面均匀的能流分布.以百兆瓦级塔式光热电站为例,对定日镜瞄准策略进行优化,在典型日中春分日条件下吸热器表面能流密度峰值由赤道瞄准的 1.94 MW/m2 降低到 1.01 MW/m2,均匀性提高 53.29%,截断因子仅减小0.86%,在保证截断效率的同时确保了吸热器的高效安全运行.
To achieve uniform heat flux distribution on the receiver surface,an optimization method for he-liostat aiming strategy in solar power tower station is proposed.First,the heliostat field is divided into zones based on the calculated instantaneous optical efficiency of heliostats throughout the entire field,and different aiming factors are designed for heliostats in different zones.Then,the spot size of each heliostat is calculated according to the aiming factor,and the relative spot size is determined by the ratio of spot size to receiver size,thereby planning the aiming point distribution.Finally,a genetic algorithm is employed to optimize the heliostat aiming point distribution,achieving uniform heat flux distribution on the receiver surface.Taking a hundred-megawatt-scale solar power tower station as an example,the heliostat aiming strategy is optimized.Under typical spring equinox conditions,the peak heat flux density on the receiver surface is reduced from 1.94 MW/m2 with equatorial aiming to 1.01 MW/m2,improving uniformity by 53.29%while reducing the spillage factor by 0.86%.This ensures efficient and safe operation of the receiver while maintaining high in-terception efficiency.
田英杰;魏秀东;张全胜;张亚南;余强
长春理工大学 空间光电技术研究所,长春 130022长春理工大学 空间光电技术研究所,长春 130022长春理工大学 空间光电技术研究所,长春 130022中国广核新能源控股有限公司,北京 100070中国农业大学 信息与电气工程学院,北京 100083
信息技术与安全科学
塔式太阳能电站光学效率瞄准策略遗传算法
solar power tower stationoptical efficiencyaiming strategygenetic algorithm
《中国光学(中英文)》 2026 (2)
358-366,9
国家自然基金面上基金(No.52376219)Supported by National Natural Science Foundation of China(No.52376219)
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