Sheltered from the heat? How tents and shade covers may unintentionally increase air temperature exposures to unsheltered communities

Joseph Karanja; Jaime Vieira; Jennifer Vanos

doi:10.1016/j.puhip.2023.100450

Sheltered from the heat? How tents and shade covers may unintentionally increase air temperature exposures to unsheltered communities

Public Health Pract (Oxf). 2023 Nov 13:6:100450. doi: 10.1016/j.puhip.2023.100450. eCollection 2023 Dec.

Authors

Joseph Karanja¹, Jaime Vieira², Jennifer Vanos^{1

3}

Affiliations

¹ School of Geographical Sciences and Urban Planning, Arizona State University, Tempe, AZ, 85287-5302, USA.
² University of Arizona College of Medicine, Phoenix, AZ, USA.
³ School of Sustainability, Arizona State University, USA.

Abstract

Objective: Heat vulnerability and homelessness are central public health concerns in cities globally, and public health implementation should address these two challenges in tandem to minimize preventable heat-related morbidity and mortality. Populations facing unsheltered homelessness use tents (or similar shelters) with shading features to minimize sun and heat exposure. This study evaluates the efficacy of different tent cover (shading) materials and how they moderate the in-tent air temperature (T_air) exposures of tent users during extreme summer conditions.

Study design: Within-tent T_air monitoring using Kestrel Drop devices occurred across three full typical summer days in Phoenix, Arizona in July 2022.

Methods: In-tent T_air were statistically compared between six small side-by-side identical tents with different cover materials (control (no cover), mylar, white bedsheet, tarp, sunbrella fabric, aluminum foil), as well as with ambient T_air.

Results: Using any tent resulted in higher daytime in-tent T_air than ambient T_air. Further, compared to a control tent, the T_air within tents shaded with sunbrella, tarp, and white bedsheet had significantly higher T_air at all times (2.36 °C, 2.46 °C, and 1.11 °C higher T_air, respectively), controlling for T_air and day/night.

Conclusion: Adding cover materials over tents may increase heat risk to an already vulnerable population at certain times of the day. Higher in-tent T_air is attributable to the reduced ability for heat and vapor to escape, largely due to reduced ventilation (mixing). Local authorities and welfare associations should reconsider using unventilated tents for shading and promote more widespread, ventilated tents and shade to ensure that prevention efforts do not further marginalize the most vulnerable. Future work should incorporate more comprehensive measurements of solar radiation to quantify overall heat stress for exposure reduction techniques.

Keywords: Air temperature; Heat vulnerability; Public health; Unsheltered homeless.