Transactions of the Korean Society of Automotive Engineers (한국자동차공학회논문집)

The Korean Society of Automotive Engineers (한국자동차공학회)
권호 표지

Study on Prediction of High Temperature Thermal Behavior of, Automotive Catalytic Converters with Oval Type

오벌형 자동차 촉매 컨버터의 고온 열적 거동 예측에 관한 연구

  • Published : 2002.09.01
Download PDF
⟨ Previous Next ⟩

Abstract

Considering the high temperature durability, the most important issue is to accurately predict the maximum operating temperature of the shell, mat and substrate. This temperature prediction then defines the material selections far the mat, shell and cones, and allows an assessment to be made as to the necessity of heat shielding. In this papers, The commercial code FLUENT was utilized to simulate automotive oval type catalytic converters, with the objective of predicting thermal behavior under steady-state, high-load conditions. Specialized computational models are used to account for effects of heat and mass transfer in the monolith, conjugate heat transfer in the various converter materials, and radiation heat transfer.

Keywords

References

  1. SAE 1999-01-0454 CFD Prediction and Experimental Validation of High Temperature Thermal Behavior in Catalytic Converters W.Taylor Ⅲ
  2. Perry`s Chemical Engineers` Handbook(Six Edition) R.H.Perry
  3. SAE 1999-01-0462 CFD Investigation of Thermal Fluid Flow and Conversion of the Catalytic Converter C.Chung;S.Rajadurai;L.Geer
  4. Exhaust Heat Exchange in a Pipe of an Internal Combustion Engine EGR Cooler and Passenger Compartment Heating Applications N. Srun AP
  5. SAE 931070 A Numerical Model for Thermal Problems in Exhaust Systems David;K.S.Chen
  6. SAE 2000-01-0208 Study on Flow Characteristics of Automotive Catalytic Converters with Various Configurations S. Shi-jin
  7. AICHE Journal Mathematical Modeling of the Monolith Catalytic Converter-Part 1: Development of Model and Application of Orthogonal Collocation Young;Findlayson
  8. SAE 860242 Computer Simulation of Intake and Exhaust Manifold Flow and Heat Transfer S.Meisner;S.C.Sorenson
  9. IMechE C543/066/99 Prediction of Local Heat Transfer Coefficients in the Exhaust Down Pipe during Engine Warm-Up P.R.S.White;M.S.A.Leaney
  10. SAE 920262 Computer Modeling on Exhaust System heat Transfer Y.Zhang;K.Phaneuf;R.Hanson;N.Showalter