Addressing a systematic error correcting for free and mixed convection when measuring mean radiant temperature with globe thermometers
- It is widely accepted that most people spend the majority of their lives indoors. Most individuals do not realize that while indoors, roughly half of heat exchange affecting their thermal comfort is in the form of thermal infrared radiation. We show that while researchers have been aware of its thermal comfort significance over the past century, systemic error has crept into the most commonIt is widely accepted that most people spend the majority of their lives indoors. Most individuals do not realize that while indoors, roughly half of heat exchange affecting their thermal comfort is in the form of thermal infrared radiation. We show that while researchers have been aware of its thermal comfort significance over the past century, systemic error has crept into the most common evaluation techniques, preventing adequate characterization of the radiant environment. Measuring and characterizing radiant heat transfer is a critical component of both building energy efficiency and occupant thermal comfort and productivity. Globe thermometers are typically used to measure mean radiant temperature (MRT), a commonly used metric for accounting for the radiant effects of an environment at a point in space. In this paper we extend previous field work to a controlled laboratory setting to (1) rigorously demonstrate that existing correction factors used in the American Society of Heating Ventilation and Air-conditioning Engineers (ASHRAE) Standard 55 or ISO7726 for using globe thermometers to quantify MRT are not sufficient; (2) develop a correction to improve the use of globe thermometers to address problems in the current standards; and (3) show that mean radiant temperature measured with ping-pong ball-sized globe thermometers is not reliable due to a stochastic convective bias. We also provide an analysis of the maximum precision of globe sensors themselves, a piece missing from the domain in contemporary literature.…
Document Type: | Article |
---|---|
Author: | Eric Teitelbaum, Hayder AlsaadORCiDGND, Dorit Aviv, Alexander Kim, Prof. Dr. Conrad VölkerORCiDGND, Forrest Meggers, Jovan Pantelic |
DOI (Cite-Link): | https://doi.org/10.1038/s41598-022-10172-5Cite-Link |
URN (Cite-Link): | https://nbn-resolving.org/urn:nbn:de:gbv:wim2-20220509-46363Cite-Link |
URL: | https://www.nature.com/articles/s41598-022-10172-5#citeas |
Parent Title (German): | Scientific reports |
Publisher: | Springer Nature |
Place of publication: | London |
Language: | English |
Date of Publication (online): | 2022/04/19 |
Date of first Publication: | 2022/04/19 |
Release Date: | 2022/05/09 |
Publishing Institution: | Bauhaus-Universität Weimar |
Institutes and partner institutions: | Fakultät Bauingenieurwesen / Professur Bauphysik |
Volume: | 2022 |
Issue: | Volume 12, article 6473 |
Pagenumber: | 18 |
Tag: | OA-Publikationsfonds2022 Globe thermometers; Indoor environment; Mean radiant temperature; Measurements; Thermal comfort |
GND Keyword: | Strahlungstemperatur |
Dewey Decimal Classification: | 500 Naturwissenschaften und Mathematik / 530 Physik / 536 Wärme |
BKL-Classification: | 56 Bauwesen / 56.55 Bauphysik, Bautenschutz |
Open Access Publikationsfonds: | Open-Access-Publikationsfonds 2022 |
Licence (German): | Creative Commons 4.0 - Namensnennung (CC BY 4.0) |