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  1. Semi analytical prediction of automobile body temperature distribution in the top coat paint oven
Semi analytical prediction of automobile body temperature distribution in the top coat paint oven
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Semi analytical prediction of automobile body temperature distribution in the top coat paint oven

Hanafizadeh, P.

  1. DOI:10.1115/HT2009-88384
  2. Main Entry: Hanafizadeh, P.
  3. Title:Semi analytical prediction of automobile body temperature distribution in the top coat paint oven.
  4. Abstract:Automotive industry frequently needs to test new products, according to different production parameters, in order to determine the actual thermal behavior of bodies before mass production is implemented. Numerical simulation of these processes can reduce the very expensive and time consuming experimental procedures. For the drying and hardening process of the top paint applied in the coating process, the body temperature must be raised according to the paint manufacturer regulations. Consequently, prediction of temperature distribution of the car body during various zones of ovens is very vital in the design and performance analysis of the paint dryers. In this research, a novel semi-analytical approach has been used to predict the body temperature variation during the curing process. Considering the energy balance for the body, a set of differential equation has been extracted, depending on the oven zone. These equations can be solved numerically to find the transient temperature profile of the car body. Some parameters in these equations have been achieved by experimental procedure. The results show that the present model predictions are in a good agreement with the experimental data. Therefore, the developed model has a reasonable accuracy and can be used as an efficient robust approach to distinguish overall thermal behavior of the body. These techniques can be used to optimize the design of curing paint oven. Copyright © 2009 by ASME
  5. Notes:Sharif Repository
  6. Subject:Automobile.
  7. Subject:Semi-numerical approach.
  8. Subject:Transient prediction.
  9. Subject:Body temperature.
  10. Subject:Car bodies.
  11. Subject:Coating process.
  12. Subject:Curing process.
  13. Subject:Developed model.
  14. Subject:Experimental data.
  15. Subject:Experimental procedure.
  16. Subject:Hardening process.
  17. Subject:Mass production.
  18. Subject:Model prediction.
  19. Subject:New product.
  20. Subject:Numerical approaches.
  21. Subject:Numerical simulation.
  22. Subject:Performance analysis.
  23. Subject:Production parameters.
  24. Subject:Reasonable accuracy.
  25. Subject:Semi-analytical.
  26. Subject:Thermal behaviors.
  27. Subject:Top coating.
  28. Subject:Top-coats.
  29. Subject:Transient temperature.
  30. Subject:Automobile parts and equipment.
  31. Subject:Automotive industry.
  32. Subject:Computer simulation.
  33. Subject:Curing.
  34. Subject:Differential equations.
  35. Subject:Forecasting.
  36. Subject:Hardening.
  37. Subject:Heat exchangers.
  38. Subject:Heat transfer.
  39. Subject:Laws and legislation.
  40. Subject:Ovens.
  41. Subject:Paint.
  42. Subject:Railroad cars.
  43. Subject:Stoves.
  44. Subject:Temperature distribution.
  45. Subject:Thermoanalysis.
  46. Subject:Automobile bodies.
  47. Added Entry:Sajadi, B.
  48. Added Entry:Saidi, M. H.
  49. Added Entry:Khalkhali, H.
  50. Added Entry:Taherraftar, M.
  51. Added Entry:Sharif University of Technology.
  52. Added Entry:2009 ASME Summer Heat Transfer Conference, HT2009, San Francisco, CA, 19 July 2009 through 23 July 2009
  53. Added Entry:HT2009
  54. Source: Proceedings of the ASME Summer Heat Transfer Conference 2009, HT2009, 19 July 2009 through 23 July 2009 ; Volume 3 , 2009 , Pages 655-660 ; 9780791843581 (ISBN)
  55. Web Site:http://proceedings.asmedigitalcollection.asme.org/proceeding.aspx?articleid=1631924

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