Differences
This shows you the differences between two versions of the page.
Both sides previous revisionPrevious revisionNext revision | Previous revisionNext revisionBoth sides next revision | ||
apps:biomet_pet [2019/01/12 21:15] – enviadmin | apps:biomet_pet [2022/07/31 16:59] – [References] enviadmin | ||
---|---|---|---|
Line 14: | Line 14: | ||
Despite its popularity, PET long time lacked a proper and comprehensive documentation. Basically, one needed to read the 2 papers Gagge et al. (1971) and Höppe (1984) -in german- plus the computer source code provided by VDI 3787. \\ | Despite its popularity, PET long time lacked a proper and comprehensive documentation. Basically, one needed to read the 2 papers Gagge et al. (1971) and Höppe (1984) -in german- plus the computer source code provided by VDI 3787. \\ | ||
- | In 2018, this gap has been closed by the paper "//The P.E.T. comfort index: Questioning the model//" | + | **In 2018, this gap has been closed by the paper "//The P.E.T. comfort index: Questioning the model//" |
- | It has to be noted, that there are some non-logical assumptions and errors in the original set of equations plus coding errors in the code published in VDI 3787. In addition, there have been better parametrisations for the Mean Radiant Temperature (TMRT) which is is not directly a part of PET but widely influences the results. | + | In this paper as well as in ENVI-met paper it was noted that there are some non-logical assumptions and errors in the original set of equations plus coding errors in the code published in VDI 3787. In addition, there have been better parametrisations for the Mean Radiant Temperature (TMRT) which is is not directly a part of PET but widely influences the results. |
- | In the ENVI-met implementation | + | In the ENVI-met implementation |
- | Main changes in ENVI-met | + | Main changes in ENVI-met |
* For the indoor setting, the turbulent exchange coefficients for heat and vapour are calculated using the indoor air velocity instead of keeping them at the outdoor value | * For the indoor setting, the turbulent exchange coefficients for heat and vapour are calculated using the indoor air velocity instead of keeping them at the outdoor value | ||
* The sweat rate and the amount of sweat on the skin is set to zero when starting calculating the indoor environment | * The sweat rate and the amount of sweat on the skin is set to zero when starting calculating the indoor environment | ||
+ | |||
+ | The suggestions form Walther and Goestchel (2018) | ||
- | The suggestions form Walther and Goestchel (2018) | ||
Line 43: | Line 44: | ||
===== References ===== | ===== References ===== | ||
+ | * Walthera, E and Goestchel, Q. (2018): The P.E.T. comfort index: Questioning the model, Building and Environment, | ||
* Gagge, A., Stolwijk, J., and Nishi, Y. (1971): An effective temperature scale based on a simple model of human physiological regulatory response. ASHRAE Trans., 77(1): | * Gagge, A., Stolwijk, J., and Nishi, Y. (1971): An effective temperature scale based on a simple model of human physiological regulatory response. ASHRAE Trans., 77(1): | ||
* Höppe, P. (1984). Die Energiebilanz des Menschen: In: Münchener Universitätsschriften- Fachbereich Physik, Wissenschaftliche Mitteilungen Nr. 49. Meteorologisches Institut, Universität München, München. | * Höppe, P. (1984). Die Energiebilanz des Menschen: In: Münchener Universitätsschriften- Fachbereich Physik, Wissenschaftliche Mitteilungen Nr. 49. Meteorologisches Institut, Universität München, München. | ||
* Höppe, P. (1999): The physiological equivalent temperature – a universal index for the biometeorological assessment of the thermal environment. - International Journal of Biometeorology 43, 71-75. | * Höppe, P. (1999): The physiological equivalent temperature – a universal index for the biometeorological assessment of the thermal environment. - International Journal of Biometeorology 43, 71-75. | ||
* VDI (2008): VDI 3787. Environmental meteorology. Methods for the human biometeorological evaluation of climate and air quality for urban and regional planning at regional level. Part I: Climate, Blatt 2/ Part 2 | * VDI (2008): VDI 3787. Environmental meteorology. Methods for the human biometeorological evaluation of climate and air quality for urban and regional planning at regional level. Part I: Climate, Blatt 2/ Part 2 |