Add to ORKGThermophysiological models may provide an alternative solution to predict thermal comfort in non-uniform thermal environments. In this study a thermophysiological model based on the model of Fiala was used. The purpose of the study was to validate the model through a laboratory study with test subjects who were exposed to a non-uniform thermal environment. During the experiments both the physiological response and thermal sensation ofthe subjects were measured. The physiological response and thermal sensation predicted by the thermophysiological model were compared to the measurement results. The results showed that the model predicts the mean skin temperature well (root mean squared deviation 0.95K). However, the predicted core temperature...
Various and disparate technical disciplines have identified a growing need for tools to predict huma...
A three-part series presents the development of models for predicting the local thermal sensation (P...
Neutral thermal sensation is expected for a human body in heat balance in near-steady-state thermal ...
Thermophysiological models may provide an alternative solution to predict thermal comfort in non-uni...
This study aims at comparing the predictions of skin temperature from different models of human ther...
Stolwijk developed a thermophysiological human model which, to day, is still the basis and inspirati...
A three-part series presents the development of models for predicting the local thermal sensation (P...
Most existing thermal comfort models are applicable only to steady-state, uniform thermal environmen...
The most complete and realistic physiological data are derived from direct measurements during human...
Thermal comfort, influenced by thermal sensation is an important building performance indicator. In ...
Most existing thermal comfort models are only applicable only in uniform, steady-state thermal envir...
Abstract. A coupled model of human physiology and thermal comfort was developed in Dymola/Modelica. ...
During their daily lives, humans are frequently exposed to conditions that differ from homogeneous m...
Various and disparate technical disciplines have identified a growing need for tools to predict huma...
Various and disparate technical disciplines have identified a growing need for tools to predict huma...
A three-part series presents the development of models for predicting the local thermal sensation (P...
Neutral thermal sensation is expected for a human body in heat balance in near-steady-state thermal ...
Thermophysiological models may provide an alternative solution to predict thermal comfort in non-uni...
This study aims at comparing the predictions of skin temperature from different models of human ther...
Stolwijk developed a thermophysiological human model which, to day, is still the basis and inspirati...
A three-part series presents the development of models for predicting the local thermal sensation (P...
Most existing thermal comfort models are applicable only to steady-state, uniform thermal environmen...
The most complete and realistic physiological data are derived from direct measurements during human...
Thermal comfort, influenced by thermal sensation is an important building performance indicator. In ...
Most existing thermal comfort models are only applicable only in uniform, steady-state thermal envir...
Abstract. A coupled model of human physiology and thermal comfort was developed in Dymola/Modelica. ...
During their daily lives, humans are frequently exposed to conditions that differ from homogeneous m...
Various and disparate technical disciplines have identified a growing need for tools to predict huma...
Various and disparate technical disciplines have identified a growing need for tools to predict huma...
A three-part series presents the development of models for predicting the local thermal sensation (P...
Neutral thermal sensation is expected for a human body in heat balance in near-steady-state thermal ...