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Assessment of Various Environmental Thermal Loads on Passenger Thermal Comfort

Journal Article
2010-01-1205
ISSN: 1946-3995, e-ISSN: 1946-4002
DOI: https://doi.org/10.4271/2010-01-1205
Published April 12, 2010 by SAE International in United States
Assessment of Various Environmental Thermal Loads on Passenger Thermal Comfort
Sector:
Citation: Han, T., Chen, K., Khalighi, B., Curran, A. et al., "Assessment of Various Environmental Thermal Loads on Passenger Thermal Comfort," SAE Int. J. Passeng. Cars – Mech. Syst. 3(1):830-841, 2010, https://doi.org/10.4271/2010-01-1205.
Language: English

References

  1. Han, T. Huang, L. Kelly, S. Huizenga, C. et al. “Virtual Thermal Comfort Engineering,” SAE Technical Paper 2001-01-0588 2001
  2. Lin, C.H. Han, T. Koromilas, C.A. “Effects of HVAC Design Parameters on Passenger Thermal Comfort,” SAE Technical Paper 920264 SAE Transactions Feb. 1992
  3. Curlee, J. “Numerical Simulation of the Flow in a Passenger Compartment and Evaluation of Thermal Comfort of the Occupants,” SAE Technical Paper 970529 1997
  4. Han, T. Huang, L. Kelly, S. Huizenga, C. et al. “Virtual Thermal Comfort Engineering,” SAE Technical Paper 2001-01-0588 , SAE Transactions, Journal of Passenger Cars, Mechanical Systems, V-110-6 Sept. 2002
  5. Han, T. Huang, L. “A Sensitivity Study of Occupant Thermal Comfort in a Cabin Using Virtual Thermal Comfort Engineering,” SAE Technical Paper 2005-01-1509 2005
  6. Zhang H. “Human thermal sensation and comfort in transient and non-uniform thermal environments,” University of California Berkeley 2003
  7. Arens E. Zhang H. Huizenga C. “Partial- and whole body thermal sensation and comfort, Part I: uniform environmental conditions” Journal of Thermal Biology 31 53 59 2006
  8. Arens E. Zhang H. Huizenga C. “Partial- and whole body thermal sensation and comfort, Part II: non-uniform environmental conditions” Journal of Thermal Biology 31 60 62 2006
  9. Zhang H. Arens E. Huizenga C. Han T. “Thermal sensation and comfort models for non-uniform and transient environments: Part I: local sensation of individual body parts,” Building and Environment 2009
  10. Zhang H. Arens E. Huizenga C. Han T. “Thermal sensation and comfort models for non-uniform and transient environments: Part II: local comfort of individual body parts,” Building and Environment 2009
  11. Zhang H. Arens E. Huizenga C. Han T. “Thermal sensation and comfort models for non-uniform and transient environments: Part III: whole body sensation and comfort,” Building and Environment 2009
  12. Lin, C.-H. Lelli, M.A. Han, T. Niemiec, R.J. et al. “An Experimental and Computational Study of Cooling in a Simplified GM-10 Passenger Compartment,” SAE Technical Paper 910216 1991
  13. Huang, L. Han, T. “Validation of 3-D Passenger Compartment Hot Soak and Cool-Down Analysis for Virtual Thermal Comfort Engineering,” SAE Technical Paper 2002-01-1304 2002
  14. Commercial Thermal Analysis code ThermoAnalytics Inc.
  15. Commercial CFD code ANSYS Inc.
  16. ANSA BETA CAE software for geometry modeling and meshing
  17. Tumas, T.M. Maniam, B. Mahajan, M. Anand, G. et al. “e-Thermal: A Vehicle-Level HVAC/PTC Simulation Tool,” SAE Technical Paper 2004-01-1510 2004
  18. Launder B. E. Spalding D. B. “The numerical Computation of Turbulent Flows,” Computer Methods in Applied Mechanics and Engineering 3 269 289 1974
  19. Han, T. Chen, K.-H. “Assessment of Various Environmental Thermal Loads on Passenger Compartment Soak and Cool-down Analyses,” SAE Technical Paper 2009-01-1148 2009
  20. Han T. Chen K. “Assessment of various Environmental Thermal Loads on Passenger Compartment Soak and Cool-down Analyses,” SAE Paper 2009-01-1148 April 2009
  21. Stolwijk J. A. J. Hardy J. D. “Temperature Regulation in Man - A Theoretical Study,” Pflugers Archiv Ges. Physiol 1966 291 129 162
  22. Tanabe S. Tsuzuki T. Kimura K. Horikawa S. “Numerical Simulation Model of Thermal Regulation of Man with 16 Body Parts of Evaluating Thermal Environment (Part 1 Heat Transfer at Skin Surface and Comparison with SET* and Stolwijk Model),” Summaries of Technical Papers of Annual Meeting Architectural Institute of Japan 1995
  23. de Dear R. Arens E. Zhang H. Oguro M. “Convective and Radiative Heat Transfer Coefficients for Individual Human Body Segments,” International Journal of Biometeorology 1997 40 141 156
  24. Fiala D First principles modeling of thermal sensation responses in steady state and transient conditions ASHRAE Transactions 2002
  25. Raven P. R. Horvath S. M. “Variability of Physiological Parameters of Unacclimatized Males during a Two-hour Cold Stress of 5°C International Journal of Biometeorology,” 1970 14 3 309 320
  26. Hardy J. D. Stolwijk J. A. J. “Partitional Calorimetric Studies of Responses of Man to Thermal Transients,” Journal of Applied Physiology 1966 21 967 977
  27. Birch S. D. Ramadhyani S. Pearson J. T. “Analysis of passenger Thermal Comfort in An Automobile under Severe Winter Conditions,” ASHRAE Transactions 1991 97
  28. Fanger PO Thermal comfort NY McGraw-Hill 1972
  29. Guan Y Hosni MH et al. Investigation of human thermal comfort under highly transient conditions for automobile applications - Part2: Thermal sensation modeling ASHRAE Transactions 2003 109 2
  30. Fiala D Dynamic simulation of human heat transfer and thermal comfort Institute of Energy and Sustainable Development, De Montfort University Leicester 1998 237
  31. Wang XL Thermal comfort and sensation under transient conditions Department of Energy Technology, Royal Institute of Technology Stockholm 1994 136
  32. Wang XL Peterson FK Estimating thermal transient comfort ASHRAE Transaction 1992 98
  33. Ring JW de Dear RJ Temperature transients: A model for heat diffusion through the skin, thermoreceptor response and thermal sensation Indoor Air 1991 1 4 448 456
  34. Wyon, D.P. Larsson, S. Forsgren, B. Lundgren, I. “Standard Procedures for Assessing Vehicle Climate with a Thermal Manikin,” SAE Technical Paper 890049 1989
  35. Bohm M Browen A et al. Evaluation of vehicle climate with a thermal manikin - The relationship between human temperature experience and local heat loss Swedish Institute of Agricultural Engineering 1990
  36. Nilsson HO Thermal comfort evaluation with virtual manikin methods Proceedings of Indoor Air 2005 Beijing 138 142

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