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Influence of solar insolation on energy and exergy efficiency of a rectangular duct solar air heater with various types of V rib roughness: An analytical approach

Avinash K. Hegde, Raghuvir Pai, K. Vasudeva Karanth

2024International Communications in Heat and Mass Transfer26 citationsDOIOpen Access PDF

Abstract

In the current work, the energy and exergy evaluations for several V ribs in a rectangular duct SAH are evaluated and compared with smooth SAH for a heat flux range of 800 to 1200 W/m2. The analysis uses correlations for the friction factor and Nusselt number for different V ribs that have been developed by various researchers. The investigators' recommended optimum design parameters are employed to analyse the specific rib. The thermohydraulic and exergy efficiency of various V ribs are evaluated using the MATLAB code and comparisons of the findings are provided. The staggered discrete multi-V-shape rib configurations achieves the maximum thermal efficiency of 76.63% for Reynolds number of 21,000 and solar radiation heat flux of 800 W/m2. Corresponding to a Reynolds number of 21,000 and solar radiation heat flux of 1200 W/m2, the perforated multi-V-shaped rib gives a maximum thermohydraulic efficiency of 74.82%. At 800 W/m2 of heat flux, a maximum exergy efficiency of 5.17% is obtained for the staggered discrete multi-V-shape rib configuration at lower Reynolds number. Whereas, corresponding to higher Reynolds number, the maximum exergy efficiency is 4.18% for perforated multi-V rib.

Topics & Concepts

Materials scienceDuct (anatomy)ExergySolar energyInsolationEnvironmental scienceExergy efficiencyMechanicsSurface finishThermodynamicsComposite materialGeologyPhysicsMedicineClimatologyBiologyEcologyPathologyHeat Transfer MechanismsFluid Dynamics and Turbulent FlowsLaser Material Processing Techniques