Page 233 - Industrial Ventilation Design Guidebook
P. 233

94                            CHAPTER 5 PHYSIOLOGICAL AND TOXICOLOGICAL CONSIDERATIONS

                 4. Wyon, D. (1978). Human productivity in the environments between 65 and 85 °F (18-30 ""( ).
                   In Energy Conservation Strategies in Buildings, editor, Stolwijk, J. A. J., Yale University Print-
                   ing Service, p. 192-216.
                 5. ASHRAE (1966). ASHRAE Standard 55-66: Thermal Environmental Conditions for Human
                   Occupancy. American Society of Heating Refrigeration and Air-Conditioning Engineers, Atlanta,
                 6. ASHRAE (1997). Handbook of Fundamentals, Chapter 8, American Society of Heating,
                   Refrigeration and Air-Conditioning Engineers, Atlanta,
                 7. Gagge, A. P., Stolwijk, J., and Nishi, Y. (1971). An effective temperature scale ba^td on a sim-
                   ple model of human physiological regulatory response. ASHRAE Trans 77(1), 247-262,
                 8. Hardy, J. D., Stolwijk, J. A. J., and Gagge, A. P. (1971). In Comparative Physiology of Thcr-
                   moregulation, Chapter 5, Charles C. Thomas, Springfield, IL.
                 9. ASHRAE (1992). ANSI/ASHRAE Standard 55-1992; Thermal Conditions for Human Occu-
                   pancy. American Society of Heating, Refrigeration and Air-Conditiomng Engineers, Atlanta.
                 10. Bergiund, L. G. and Cam, W. S. (1989). Perceived air quality and the thermal environment. In
                   The Human Equation: Health and Comfort. Proceedings of ASHRAE/SOEH ( onfcn net IAQ
                   '89. ASHRAE, Atlanta, pp. 93-99.
                 11. Goldman, R. F. (1978). The role of clothing in achieving acceptability of environmental tem-
                   peratures between 65 °F and 85 °F (18 °C and 30 °C) In Energy Conservation Strategies in
                   Buildings. Stolwijk, J. A. J., Yale University Printing Service, p. 49.
                 12. McCullough, E. A., Olesen, B. W., and Hong, S. W. (1994). Thermal insulation provided by
                   chairs. ASHRAE Trans., 100(1).
                 13. McCullough, E. A. and Hong, S. W. (1994), A data base for determining the decrease in cloth-
                   ing insulation due to body motion. ASHRAE Trans., 100(1).
                 14. ASHRAE (1994). ANSI/ASHRAE Standard 55-1992, Addendum 55a, American Society of
                   Heating, Refrigeration and Air-Conditioning Engineers, Atlanta.
                 15. Hanzawa, H,, Melikov, A. K. and Fanger, P. O. (1987). Air flow characteristics .in the occupied
                   zone of ventilated spaces. ASHRAE Trans., 100(2), 937-952.
                 16. Fanger, P. O., Melikov, A. K., Hanzawa, H., and Ring, J. (1988). Air turbulence and sensation
                   of draught. Energy and Buildings, 12, 21-39.
                 17. Xia, Y., and Zhao, R. (1999). Effects of air turbulence on human thermal sensation in warm
                   isothermal environment. The Third International Symposium on Heating, Ventilation and Air
                   Conditioning, 1:147-152.
                 18. Fanger, P. O. (1972). Thermal Comfort, McGraw-Hill, New York.
                 19. Gagge, A. P. (1937). A new physiological variable associated with sensible and insensible per-
                   spiration. Am. J. ofPhysiol, 20(2), 277-287.
                20. Bergiund, L. G., and Cunningham, D. J. (1986). Parameters of human discomfort in warm
                   environments. ASHRAE Trans., 92(2), 732-746.
                21. Gonzalez, R. R., and Bergiund, L. G. (1978). Indices of thermoregulatory strain for moderate
                   exercise in the heat./. Appl. Physiol. Resp. Environ. Excercise PhysioL 44(6), pp. 889-899.
                22. C unmngham, D. and Bergiund, L. G. (1985). Skin wettedness under clothing and its relation-
                   ship to thermal comfort in men and women. In CLIMA 2000: Indoor Climate, 4, VSS Kongres,
                   Copenhagen, pp. 91-96.
                23. Hoeppe, P., Oohori, T., Bergiund, L., and Gwosdow, A. (1985) Vapor resistance of clothing
                   and its effect on human response during and after exercise. In CLIMA 2000: Indoor Climate,
                   4, VSS Kongres, Copenhagen, pp. 97-102.
                24. Mole, R. H. (1948). The relative humidity of the skin. /. Physiol., London, 107:399-411.
                25. Kerslake, D. M. (1972). The Stress of Hot Environments, University Press, Cambridge.
                26. Gwosdow, A. R., Stevens, J. C., Bergiund, L., and Stolwijk, J. A. J. (1986). Skin friction and
                   fabric sensations in neutral and warm environments. Textile Research Journal, 56, 574—
                   ,>80.
                27. Green, G. H. (1982). Positive and negative effects of building humidification. ASHRAE Trans,
                   88(1), 1049-1061.
                28. White, L R., and Rycroft, R. J. G. (1982). Low humidity occupational dermatosis. Contact
                   Dermat., 8, 287-290.
                29. Liviana, J. E., Rohles, F. H. and Bullock, O. D. (1988). Humidity, comfort and contact lenses.
                   ASHRAE Trans, 94(1), 3-11.
                30. Nevins, R., Gonzalez, R. R., Nishi, Y., and Gagge, A. P. (1975). Effect of changes m ambient
                   temperature and level of humidity on comfort and thermal sensations. ASHRAE Trans., 81(2).
   228   229   230   231   232   233   234   235   236   237   238