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논문 상세정보

PIV 유동 계측을 통한 자동차 프런트 엔드 쿨링 팩 시스템의 외부 유동특성 평가

PIV Analysis of the External Flow Field of Front End Cooling Pack System

Abstract

The major trend in global automotive market is changing drastically in the way that a vehicle FECPS(Front End Cooling Pack System) is designed and manufactured as an assembly part. The system can encompass many functions, be assembled into a vehicle as a module, and reduce the production cost as well as time. The FECPS consists of an impact beam, an aluminum condenser and a radiator, a carrier and a cooling fan with a BLDC motor. In order to predict the performance of a FECPS accurately, it is essential to properly model the air flow field through various heat exchangers, such as a condenser or a radiator. In this study, the flow field of the system is measured by a PIV(Particle Image Velocimetry) system. The result is compared with that measured with multi-channel anemometer.

참고문헌 (10)

  1. H. Cheron, J. Moulin and M. Orlando, 'Modu-lar Systems: A New Architecture for the Frontof the Car,' SAE 1999-01-0844, 1999 
  2. S. C. Morris, J. J. Good, J. F. Foss, 'VelocityMeasurements in the wake of an AutomotiveCooling Fan,' ETF, Vol.17, pp.100-106, 1998 
  3. A. M. Sardar, W. K. George, J. R. Sonnen-meier and S. Woodward, 'Flow Visualization Study of an HVAC Module Operated inWater,' SAE 2001-01-1702, 2001 
  4. M. Inoue and M. Kuroumaru, 'Three Dimen-sional Structure and Decay of Vortices Behindan Axial Flow Rotating Blade Row,' Journal of Engineering for Gas Turbines and Power,Vol.106,pp.561-569,1984 
  5. A. Boillot and A. K. Prasad, 'Optimization Procedure for Pulse Separation in Cross-Correlation PIV,' Exp. in Fluids, Vol.21,pp.87-93, 1996 
  6. K. H. Lee, C. S. Lee, H. G. Lee, M. S. Chon and Y. C. Joo, 'Spatial Analysis of Turbulent Flow in Combustion Chamber Using High Resolution Dual Color PIV,' Transactions of KSAE,Vol.6,pp.132-141, 1998 
  7. P. White, J. Smith and I. Murdoch, 'CoolingSystem Performance Evaluation,' SAE 980431,1998 
  8. B. Uhi, F. Brotz, J. Fauser and U. Kruger 'Deve-lopment of Engine Cooling Systems byCoupling CFD Simulation and Heat ExchangerAnalysis Programs,' SAE 2001-01-1695, 2001 
  9. N. S. Ap, P. Guerrero and P. Jouanny, 'Influenceof Front End Vehicle, Fan and Shroud on theHeat Performance of A/C Condenser andCooling Radiator,' SAE 2002-01-1206, 2002 
  10. J. H. Choi, H. B. Kim, S. J. Lee and I. S. Lee,'Velocity Field Measurement of Flow Aroundan Axial Fan Using a Phase Averaged 2-FramePTV Technique,' KSME, Vol.24, pp.114-123, 2000 

이 논문을 인용한 문헌 (2)

  1. Lee, Gee-Soo ; Heo, Hyung-Seok ; Kim, Hyun-Chul ; Oh, Chang-Bok 2008. "Effects of the Balance Hole Diameter of an Automotive Closed Type Water Pump on Hydraulic Performance and Axial Force" 한국자동차공학회논문집 = Transactions of the Korean Society of Automotive Engineers, 16(3): 111~117 
  2. Lee, Gee-Soo ; Heo, Hyung-Seok ; Kim, Hyun-Chul ; Oh, Chang-Bok 2008. "Effects of the Balance Hole Diameter of an Automotive Closed Type Water Pump on Hydraulic Performance and Axial Force" 한국자동차공학회논문집 = Transactions of the Korean Society of Automotive Engineers, 16(3): 111~117 

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