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Implementing renewable solar energy in presence of Maxwell nanofluid in parabolic trough solar collector: a computational study

Wasim Jamshed, Faisal Shahzad, Rabia Safdar, Tanveer Sajid, Mohamed R. Eid, Kottakkaran Sooppy Nisar

2021Waves in Random and Complex Media72 citationsDOI

Abstract

The solar radiations are absorbed in the form of heat energy by using the solar centering systems in solar collectors, this energy is then transmitted to nanofluid. This study concerns the production of entropy in a Maxwell nanofluid passed over an infinite horizontal surface. Then the non-linear stretching of the surface causes a flow in parabolic trough solar collector (PTSC). The similarity transformations are employed to transmute the system of PDEs into a system of solvable ODEs provided with the boundary conditions. Eventually, the classical Keller box scheme is applied to find the numerical solutions of transmutes ODEs. The analysis of two distinct nanofluids including copper-engine oil (Cu-EO) and zirconium dioxide-engine oil ZrO2-EO is taken into account and the results for both of them are discussed. The extracted results demonstrate a decline in Nusselt number with growing permeable media parameter and augmentation for increasing values of skin friction coefficient. A recent study is presented to provide information related to the enhancement of heat collector in the PTSC with Maxwell nanofluid. The minimal level of efficiency of Cu-EO over ZrO2-EO is 7.1% and the maximum level is up to 18.7%.

Topics & Concepts

NanofluidParabolic troughSolar energyRenewable energyNusselt numberMaterials scienceMechanicsThermodynamicsMathematicsPhysicsHeat transferReynolds numberThermalEngineeringTurbulenceElectrical engineeringNanofluid Flow and Heat TransferSolar Thermal and Photovoltaic SystemsHeat Transfer Mechanisms
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