Abstract
Purpose
The study examines how various indoor environmental quality (IEQ) factors influence student comfort and satisfaction in hot, arid educational settings. Specifically, it investigates: (1) the magnitude of influence of each IEQ factor on student perceptions, (2) the moderating role of thermal comfort and (3) strategies for enhancing classroom environmental quality.
Design/methodology/approach
This study employs structural equation modeling (SEM) using partial least squares (PLS) to analyze the effects of seven IEQ domains – air quality, thermal comfort, lighting quality, acoustics, ergonomics, aesthetic quality and safety – on student comfort and learning outcomes. A structured questionnaire captured student perceptions at UAE University. The model assessed both direct effects and the moderating influence of thermal comfort on other IEQ components.
Findings
Thermal comfort (β = 0.362, p < 0.01) and air quality (β = 0.175, p < 0.05) were identified as the most influential IEQ factors contributing to overall student comfort. Lighting quality and safety also demonstrated moderate effects, while acoustics and ergonomics had lesser influence. The model explained 69.2% of the variance in IEQ (R2 = 0.692). Importantly, thermal comfort moderated the impacts of air quality and lighting quality, amplifying their positive effects when thermal conditions were optimal.
Research limitations/implications
The study is limited to one university and relies on self-reported data, which may introduce subjective bias. Future research should integrate objective environmental measurements and expand the study to multiple institutions or climates. Longitudinal studies could further assess IEQ impacts on academic performance.
Originality/value
This research provides novel evidence on how integrated IEQ factors affect student comfort in hot, arid climates. It highlights the moderating role of thermal comfort and offers practical guidance for architects, facility managers and policymakers seeking to optimize classroom conditions while promoting energy efficiency and sustainability.
The study examines how various indoor environmental quality (IEQ) factors influence student comfort and satisfaction in hot, arid educational settings. Specifically, it investigates: (1) the magnitude of influence of each IEQ factor on student perceptions, (2) the moderating role of thermal comfort and (3) strategies for enhancing classroom environmental quality.
Design/methodology/approach
This study employs structural equation modeling (SEM) using partial least squares (PLS) to analyze the effects of seven IEQ domains – air quality, thermal comfort, lighting quality, acoustics, ergonomics, aesthetic quality and safety – on student comfort and learning outcomes. A structured questionnaire captured student perceptions at UAE University. The model assessed both direct effects and the moderating influence of thermal comfort on other IEQ components.
Findings
Thermal comfort (β = 0.362, p < 0.01) and air quality (β = 0.175, p < 0.05) were identified as the most influential IEQ factors contributing to overall student comfort. Lighting quality and safety also demonstrated moderate effects, while acoustics and ergonomics had lesser influence. The model explained 69.2% of the variance in IEQ (R2 = 0.692). Importantly, thermal comfort moderated the impacts of air quality and lighting quality, amplifying their positive effects when thermal conditions were optimal.
Research limitations/implications
The study is limited to one university and relies on self-reported data, which may introduce subjective bias. Future research should integrate objective environmental measurements and expand the study to multiple institutions or climates. Longitudinal studies could further assess IEQ impacts on academic performance.
Originality/value
This research provides novel evidence on how integrated IEQ factors affect student comfort in hot, arid climates. It highlights the moderating role of thermal comfort and offers practical guidance for architects, facility managers and policymakers seeking to optimize classroom conditions while promoting energy efficiency and sustainability.
| Original language | English |
|---|---|
| Pages (from-to) | 1–33 |
| Number of pages | 33 |
| Journal | Smart and Sustainable Built Environment |
| Early online date | 12 Nov 2025 |
| DOIs | |
| Publication status | E-pub ahead of print - 12 Nov 2025 |
Keywords
- indoor environmental quality (IEQ)
- student comfort
- Structural equation modeling (SEM)
- Sustainable educational environments
- Thermal comfort and air quality
- Indoor environmental quality (IEQ)
- Student comfort
Research Group keywords
- People & Place (PP)
