Abstract
In office buildings, provision of thermal comfort for occupant’s high intellectual concentration, efficiency and productivity is imperative. This study experimentally and numerically investigates the thermal comfort performance of HDEC system equipped to an office building. The experiment was carried out in September, October and November for 24 working days and the thermal comfort Predicted Mean Vote (PMV) index being the objective function was determined using Centre for Built Environment thermal comfort tool. DesignBuilder CFD simulation software was employed to numerically determine the PMV index of the test office using ASHRAE Standard-55 thermal comfort range of PMV=±0.5. Minitab 19 software was used to validate the numerical results against the experimental results. The Pearson correlation coefficient and the P-value at 95% confidence level were 0.717 and 0.00 respectively while the RMSE computed was 0.653 indicating a good agreement between the numerical and the experimental results. Both PMV results indicate that the HDEC system is suitable for the provision of thermal comfort in office buildings and any other similar building.
Highlights
Exception of Predicted Mean Vote (PMV) and Predicted Percentage of Dissatisfied (PPD), most of the other methods have limitations since they are dependent on specific climatic conditions (Haslinda et al, 2019)
The PMV and the PPD are widely employed in assessing the thermal comfort scenarios of occupied buildings
The objective of this article is to numerically and experimentally investigate the thermal comfort of an office building equipped with hybrid downdraft evaporative cooler (HDEC) using predictive mean vote (PMV) as the control performance criterion
Summary
Exception of PMV and PPD, most of the other methods have limitations since they are dependent on specific climatic conditions (Haslinda et al, 2019). The PMV is an index that is used to predict the mean value of the votes of a large of persons on the seven point scale of thermal sensation which ranges from -3 to +3 (ASHRAE Standard-55, 2010).
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