To improve thermal comfort prediction, this study proposes an adaptive‐rational thermal comfort model, i.e., an adaptive Predicted Mean Vote with a variable adaptive coefficient (termed as arPMV). By linearly linking the negative feedback effects of the thermal adaptations to the ambient ...
A theoretical adaptive model of thermal comfort - Adaptive Predicted Mean Vote (aPMV) 作者:Yao Runming*; Li Baizhan; Liu Jing 来源:Building and Environment, 2009, 44(10): 2089-2096. DOI:10.1016/j.buildenv.2009.02.014 Thermal comfort
predicted mean voteclothing insulationadaptive thermal comfortprimary school classroomassessment methodsIn this research the thermal comfort and thermal comfort parameters for children in primary school classrooms has been investigated. Actual thermal sensation and clothing insulation of children(age9鈥 11)in ...
The typical method for comfort analysis is the Predicted Mean Vote and Predicted Percentage Dissatisfied (PMV-PPD). However, they present limitations in accommodating the comfort of a disabled and elder group of people, which are the most vulnerable to climate change and energy poverty. The adapti...
Compared with the static thermal comfort models like predicted mean vote (PMV) model, adaptive thermal models have a wider range of adaptability. The traditional concept of adaptive thermal comfort is that residents actively adapt to environmental changes. In this paper, a K-nearest neighbors (KNN...
By adopting the method of Predicted Mean Vote (PMV) and Predicted Percentage of Dissatisfied (PPD), proposed by Fanger [38] in order to make the thermal comfort measurable, the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) determined interval −0.5 < PMV <...
[16] conducted a survey in Japanese nursing homes, and showed that the predicted mean vote (PMV) values calculated from measured data exceeded the standard thermal comfort temperature range, yet the elderly responded that they felt “neutral.” Furthermore, some filed studies were carried out in...
Three control logics were developed: (1) conventional temperature/humidity control logic, (2) ANN-based temperature/humidity control logic, and (3) ANN-based Predicted Mean Vote (PMV) control logic. Performance tests were conducted in a thermal chamber for non-application of setback and ...
Three control logics were developed: (1) conventional temperature/humidity control logic, (2) ANN-based temperature/humidity control logic, and (3) ANN-based Predicted Mean Vote (PMV) control logic. Analysis of the thermal chamber tests revealed that the ANN-based predictive temperature/humidity ...
The static predicted mean vote (PMV) model was shown to be partially adaptive by accounting for behavioral adjustments, and fully explained adaptation occurring in HVAC buildings. Occupants in naturally ventilated buildings were tolerant of a significantly wider range of temperatures, explained by a ...