Effects of Thermostat Control on Energy Use and Thermal Comfort in Office Rooms Under Different Glazing Ratio

Effects of Thermostat Control on Energy Use and Thermal Comfort in Office Rooms Under Different Glazing Ratio

Thermal comfort of occupants is characterized by operative temperature (Top), while thermal environment is usually controlled by air temperature (Ta). For perimeter areas in buildings, the use of Ta in the control may lead to uncomfortable conditions. In this paper, thermostat controls based on air...

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Bibliographic Details
Main Authors: Haiying Wang, Rongfu Hou, Bjarne W. Olesen, Ongun B. Kazanci, Huxiang Lin
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Buildings
Subjects:
thermostat control
operative temperature
thermal comfort
glazing ratio
energy use
Online Access:https://www.mdpi.com/2075-5309/15/14/2422
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Summary:Thermal comfort of occupants is characterized by operative temperature (Top), while thermal environment is usually controlled by air temperature (Ta). For perimeter areas in buildings, the use of Ta in the control may lead to uncomfortable conditions. In this paper, thermostat controls based on air (TC-Ta) and Top (TC-Top) were compared in an office module based on different glazing ratio (GR) and indoor units. The results showed that, for a fan–coil system, with TC-Top, thermal comfort can be better, while for a ceiling panel system thermal comfort was similar with both controls. For fan coils, with TC-Top, Ta in offices became higher in the winter and lower in the summer, which improved thermal comfort along with increased energy use. For both GR conditions, the radiant panel could compensate for the presence of cold/warm surfaces, and it decreased the differences between the two controls, especially during cooling, which made the radiant system more suitable in large GR condition. With TC-Top, for the ceiling panel system, the increment of energy use was quite small. According to the results, under large GR, TC-Top was better for the fan–coil system to assure thermal comfort, and both control methods could be used in ceiling panel system. This study presents a comprehensive comparison of the two control strategies for both convective and radiant systems, highlighting their performance under varying GR conditions. The results also provide guidance for the optimal control of different indoor units under different GR conditions.
ISSN:2075-5309

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