Effects of dynamic thermal conditioning on cognitive load and performance in an office environment

Amelie Reitmayer, Sebastian Clark Koth, Bilge Kobas, Kelly R. Johnstone, Margaret M. Cook, Cassandra Madigan, Thomas Auer

Research output: Contribution to journalArticlepeer-review

Abstract

In the design of buildings with minimal environmental impact, the incorporation of higher energy flexibility is becoming increasingly relevant. This approach is associated with dynamic modulations in setpoint temperatures. Until now, a link between indoor temperatures and cognitive performance of workers has been assumed, leading to high energy consumption and overcooling of office environments in summer conditions. However, research focusing on the relationship between thermal indoor environments and cognitive performance has rarely considered the influence of dynamic temperatures or temporal effects. This is the first experimental study aiming to understand the impact of temperature in relation to time of day on the subjective perception of cognitive load and performance under various thermal conditions in real-world office environments. The results indicated no observable relationship between temperature setpoints (25–30 °C) and cognitive performance. Instead, the temporal dynamics of cooling rather than fixed and static temperature setpoints appeared to have an impact.

Original languageEnglish
Article number104395
JournalApplied Ergonomics
Volume122
DOIs
StatePublished - Jan 2025

Keywords

  • Cognitive performance
  • Dynamic cooling
  • Thermal environment

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