Modeling and optimization of a solar parabolic trough concentrator system using inverse artificial neural network

In this paper, an artificial neural network inverse (ANNi) model is applied to optimize the thermal performance (eta) of parabolic trough concentrators. A feedforward neural network architecture is trained using an experimental database from parabolic trough concentrators operations. Rim angle (phi(r)), inlet (T-in) and outlet (T-out) fluid temperatures, ambient temperature (T-a), water flow (F-w), direct solar radiation (G(b)), and the wind velocity (V-w) were used as main input variables within the neural network model to estimate the thermal performance with a correlation coefficient of R-2 = 0.9996 between experimental and simulated values. The sensitivity analysis is carried out to verify the effect of all input variables. The optimal operation conditions of parabolic trough concentrators are established using artificial neural network inverse modeling (ANNi) to achieve optimal operation conditions of parabolic trough concentrators. The results indicated that ANNi is a feasible tool for Parabolic Trough Concentrators optimization. Published by AIP Publishing.