Litcius/Paper detail

Heat Transfer Measurement in a Rectangular Channel of Solar Air Heater With Winglet-Type Ribs Using Liquid Crystal Thermography

Amit Kumar, Apurba Layek

2021Journal of Thermal Science and Engineering Applications16 citationsDOI

Abstract

Abstract This paper deals with the study of heat transfer in solar air heater consisting of winglet-shaped roughness on the absorber plate using liquid crystal thermography technique. The winglet-type roughness element was placed on the absorber surface of a rectangular channel solar air heater having an aspect ratio of 4. The absorber surface was heated uniformly by a constant heat flux of 800 W/m2. The non-dimensional roughness parameter considered was relative roughness pitch, i.e., P/e, and its values range between 5 and 12 with Reynolds number (Re) ranges between 6500 and 22,000. The value of angle of attack, i.e., alpha and relative roughness width (W/w) was kept constant, and the relative roughness pitch was varied to measure the heat transfer coefficient. The enhancement in heat transfer has been compared, and it is observed that at P/e of 8 for angle of attack (α) of 60 degrees resulting its optimum value. The enhancement of heat transfer with the increase in Reynolds number is also noted.

Topics & Concepts

Materials scienceHeat transferReynolds numberHeat transfer coefficientSurface finishSurface roughnessHeat fluxOpticsHeat transfer enhancementThermographyMechanicsComposite materialTurbulenceInfraredPhysicsHeat Transfer MechanismsHeat Transfer and OptimizationFluid Dynamics and Turbulent Flows