Title :
Finite element analysis of a closed cooling system applied to thermal management of LED luminaires
Author :
Iaronka, Odirlan ; Bender, Vitor C. ; Marchesan, Tiago B.
Author_Institution :
Group of Intell. in Lighting - GEDRE, Fed. Univ. of Santa Maria - UFSM, Santa Maria, Brazil
Abstract :
The low-power consumption, longer lifetime, reliability, and lighting quality are some features that make the LEDs good candidates to street lighting applications. However, the success of these devices is heavily dependent of the performance of the thermal management. The high temperature affects the light extraction, reliability and the lifetime of LED lamp. This paper proposes three LED street lighting luminaires with thermal management. The first is based on natural convection. The second and thirdly presents the solution with a forced air convection into a closed cooling system. Simulations employing Computational Fluid Dynamics (CFD) have been done to evaluate the systems performance and to propose improvements in the airflow design. Comparisons of the experimental and simulation results are presented for validation.
Keywords :
LED lamps; computational fluid dynamics; cooling; forced convection; natural convection; reliability; street lighting; CFD; LED luminaires; LED street lighting luminaires; airflow design; closed cooling system; computational fluid dynamics; finite element analysis; light extraction; lighting quality; low-power consumption; natural convection; reliability; thermal management; Computational fluid dynamics; Finite element analysis; Heating; Junctions; Light emitting diodes; Lighting; Thermal management; Computational Fluid Dynamic; Cooling System; Light Emitting Diode (LED); Street Lighting; Thermal Design; Thermal Management;
Conference_Titel :
Power Electronics Conference (COBEP), 2013 Brazilian
Conference_Location :
Gramado
DOI :
10.1109/COBEP.2013.6785260
