NORTHVILLE, Mich., July 02, 2020 (GLOBE NEWSWIRE) -- Gentherm (THRM), a global market leader and developer of innovative thermal management technologies, and ThermoAnalytics, Inc., a leading ...

Indoor environments that are too hot, too cold or draughty create discomfort and lower human productivity. A new method for estimating the actual level of human thermal comfort in low-energy ...

Building to take note of individual human thermal comfort: Women feel the cold more than men. ScienceDaily. Retrieved May 16, 2025 from www.sciencedaily.com / releases / 2014 / 03 / 140325095836.htm.

Researchers developed a textile that uses motion energy and phase change materials to power electronics while adapting to ...

Human thermal comfort and exergy analysis represent an emerging interdisciplinary field that bridges human physiology, thermodynamics and sustainable architecture. By applying principles from the ...

An ASHRAE grant program is funding the creation of a database to help better understand human thermal comfort in residential and commercial buildings. The grants, totaling $180,000, are awarded to ...

NORTHVILLE, Mich., Oct. 01, 2021 (GLOBE NEWSWIRE) -- Gentherm (NASDAQ: THRM), a global market leader and developer of innovative thermal management technologies, was recognized in partnership with ...

Shade, within the context of outdoor thermal comfort, provides two important benefits: it blocks solar radiation to the human body and reduces solar gains on exterior surfaces, which would otherwise ...

Implications for thermal comfort evaluation. ... Saito K, Nagashima K. Spatial and temporal patterns of brain neural activity mediating human thermal sensations. Neurosci. 2025;564:260-270. doi: ...

MSc Riikka Holopainen from VTT Technical Research Centre of Finland, has written a doctoral thesis on a new method for estimating the actual level of human thermal comfort in low-energy buildings.

Creation of a database to help better understand human thermal comfort in residential and commercial buildings is being funded through an ASHRAE grant program. Veronika Foldvary, a visiting Ph.D.