Abstract
In this paper, a flux distribution model of the focal plane in dish concentrator system has been established based on ray tracking method. This model was adopted for researching the influence of the mirror slope error, solar direct normal irradiance, and tracking error of elevation-azimuth tracking device (EATD) on the focal spot characteristics (i.e., flux distribution, geometrical shape, centroid position, and intercept factor). The tracking error transmission law of the EATD transferred to dish concentrator was also studied. The results show that the azimuth tracking error of the concentrator decreases with the increase of the concentrator elevation angle and it decreases to 0 mrad when the elevation angle is 90°. The centroid position of focal spot along x-axis and y-axis has linear relationship with azimuth and elevation tracking error of EATD, respectively, which could be used to evaluate and calibrate the tracking error of the dish concentrator. Finally, the transmission law of the EATD azimuth tracking error in solar heliostats is analyzed, and a dish concentrator using a spin-elevation tracking device is proposed, which can reduce the effect of spin tracking error on the dish concentrator. This work could provide fundamental for manufacturing precision allocation of tracking devices and developing a new type of tracking device.
Highlights
Solar energy is a clean and environment-friendly renewable energy source, which is plentiful and can be widely distributed
We focused on the above two aspects; a flux distribution model of the focal plane in dish concentrator systems has been established based on ray tracking method
A flux distribution model of the focal plane of a dish concentrator system has been developed based on ray tracking method for researching the effect of the mirror surface slope error, direct normal irradiance (DNI) and elevation-azimuth tracking device (EATD) tracking error on the focal spot characteristics, and the error transmission law of the tracking error of the double-axis tracking device transmission to dish concentrator system
Summary
Solar energy is a clean and environment-friendly renewable energy source, which is plentiful and can be widely distributed. Evaluate or calibrate the tracking error of the dish concentrator This process would be influenced by the concentrator mirror slope error and solar direct normal irradiance (DNI), which would change the geometry shape or flux distribution of the focal spot on the focal plane [24, 25]. This work could provide fundamental for calibrating the tracking error of dish concentrator system, manufacturing precision allocation of a double-axis tracking device (appropriately decrease the manufacturing precision of the azimuth or spin tracking device), and developing a new type of tracking device
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