Title of article :
Performance Enhancement of Parabolic Dish Collector Receiver Using Phase Change Material: A CFD Simulation
Author/Authors :
Roohi ، Reza Department of Mechanical Engineering - School of Engineering - Fasa University , Akbari ، Masoud Department of Mechanical Engineering - School of Engineering - Fasa University
Abstract :
The design of novel and effective receivers is one of the most challenging aspects of solar energy harvesters, especially for Parabolic Dish Collectors (PDCs). The variation of solar flux due to the solar time and sky clearance index can affect the output thermal energy of the collector. One of the major approaches to producing a uniform performance for the PDCs is the utilization of Phase Change Materials (PCMs). The PCMs can absorb the solar flux at its peak instances. Subsequently, due to the thermal buffering effect, excess energy is released in cases with lower solar flux. In the present study, a novel design of receiver with multiple layers of thin PCM inserted between the passages of the working fluid is numerically simulated. The simulations are designed to determine the effect of operational parameters on the performance of the examined novel receiver. According to the results, by increasing the Heat Transfer Fluid (HTF) flow rate from 60 to 90 kg/h, the system efficiency is increased from 53.8 to 66.4 %.
Keywords :
Parabolic dish collector , Phase change material , Solar energy , CFD Simulation
Journal title :
Journal of Renewable Energy and Environment- JREE
Journal title :
Journal of Renewable Energy and Environment- JREE