Abstract
Solar power plays a significant role in fulfilling industrial and household energy needs. A hypothetical analysis is accomplished to scrutinize the practical usage of solar power by enhancing the heat diffusion rate of the conventional liquid. Third-grade cylindrical film flow is considered in the existence of hydrodynamics (MHD), radiation, Ohmic heating, and Cattaneo–Christov heat flux. Water is a base liquid suspended with graphene oxide nanoparticles. An exact model is established and solved computationally by relating suitable comparisons. The considered flow model directly uses parabolic trough solar collector. A comparative analysis is performed on Xue and Maxwell nanomodels, and the results are explored with computational outcomes. It is found that the Xue nanomodel is actively enhancing the third-grade nanofluid temperature while the Maxwell nanomodel appreciates the heat transmission rate of the same.
Acknowledgment
The author Hossam A. Nabwey would like to thank Prince Sattam Bin Abdulaziz University for funding this work via Project number (PSAU/2023/R/1444).