Performance of a solar parabolic trough concentrator using vacuum linear V-shaped cavity receiver

Abstract

The popularity of renewable energy is on the rise as fossil fuel resources continue to deplete and environmental pollution levels increase. Consequently, enhancing the performance of renewable energy systems has become a compelling subject of research. This study introduces an innovative structure, the Linear Cavity Receiver (LCR), as a receiver for solar Parabolic Trough Concentrators (PTCs). Notably, this novel structure incorporates a vacuum V-shaped LCR, marking a pioneering achievement worldwide. By adopting this configuration, the solar system’s thermal efficiency is enhanced through the reduction of heat losses. The results confirmed the superiority of the vacuum V-shaped LCR over a non-vacuum receiver in optimizing the performance of the solar PTC system. It was found that the vacuum linear V-shaped cavity receiver exhibited superior efficiency for larger cavity tube diameters, higher inlet temperatures, and lower volume flow rates. Moreover, this study showed that decreasing the cavity tube diameter, increasing solar radiation, reducing the working fluid (WF)’s inlet temperature, and raising the volume flow rate contribute to an increase in both cavity heat gain and the solar system’s thermal efficiency. It can be concluded that the thermal efficiency of the solar system was about 72.24 %, 71.6 %, and 69.9 % for cavity tube diameters 5 mm, 10 mm, and 25 mm, respectively. These findings hold great significance in the design of power-generating PTC systems, ensuring their optimal efficiency. Also, the results of this study can be used to improve energy governance by using more efficient thermal power systems.