Thermal characterization of shrouded plate fin array on an LED backlight panel

This study experimentally investigates a 348 mm × 558 mm LED backlight panel consisting of 270 1-W LEDs and a plate-fin heat sink in an acrylic housing. Effects of shroud clearance, obstructions at entrance or exit on the overall performance are also examined. The results show that the heat transfer coefficient is very slightly reduced with the rise of shroud clearance from 0 mm to 5 mm, followed by a notable rise but it peaks at a shroud clearance between 10 and 20 mm. A further increase of shroud clearance leads a marginal decrease of heat transfer coefficient. It is found that the maximum temperatures within the LED panel are not necessarily located at the center region due to the edge effect. On the other hand, the temperature variation along the longitudinal direction indicates a local minimum Nusselt number occurring near the exit of LED panel. This unique phenomenon is associated with the development of velocity and temperature field, and is consistent with previous numerical examinations. On the other hand, the obstruction placed at the exit are often severe than at the entrance.

► A 348 mm × 558 mm LED backlight panel in an acrylic housing was experimentally investigated.
► Effects of shroud clearance, obstructions at entrance or exit on the overall performance were examined.
► Heat transfer coefficient is very slightly reduced with the rise of shroud clearance from 0 mm to 5 mm.
► Heat transfer coefficient peaks at a shroud clearance between 10 and 20 mm.
► A local minimum Nusselt number occurred near the exit of LED panel.