| 1. | Optimized design of intersecting circle pumped cavities
相交圆聚光器的计算机优选设计 |
| 2. | The focusing solar energy system of curved surface of parabolic column
折面形抛物柱太阳能聚光器 |
| 3. | Design on the autotracking of domestic focusing solar energy system
家用太阳能聚光器自动跟踪系统的设计 |
| 4. | Dark - field condenser
暗视场聚光器 |
| 5. | Characteristics of sun - tracking system of concentrator are analyzed in the dissertation at first
论文首先分析了聚光器太阳跟踪的特点。 |
| 6. | To find a way of sun - tracking with little cost and great precision , sun - tracking system using single chip microcomputer ( scm ) has been studied
为找到一种价格低廉、跟踪精度高的太阳跟踪方法,本论文研究解决了用单片机实现聚光器太阳跟踪的问题。 |
| 7. | In this paper , a new structure of multi - mode fiber array or parabolic dish concentrator array combination with tapered fiber bundles was proposed to enhance the solar pump power
通过光纤集束熔锥侧面耦合器构成多模光纤阵列或者聚光器阵列的结构,可进一步提高太阳能抽运功率。 |
| 8. | On the bases of these characteristics , tracking strategy was brought out , control system was designed , and simulation was taken to verify the designing
在综合考虑聚光器太阳跟踪特点的基础上,提出了利用单片机实现跟踪的策略,设计了相应的控制系统,并对其进行了仿真研究。 |
| 9. | To investigate the practicability of a solar - direct - pumped fiber laser by using a parabolic dish concentrator , the solar power absorbed by the fiber laser and its absorption efficiency were calculated with numerical method based on the characteristics of solar spectrum in outer space
摘要为了研究抛物面碟形聚光器实现太阳能直接抽运光纤激光器,根据空间太阳光谱分布特点,采用数值方法,计算了用该聚光器聚集太阳能量抽运双包层光纤激光器时光纤吸收的太阳能量及其吸收效率。 |
