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Gholamabbas Fallah Ghalhari

Gholamabbas Fallah Ghalhari

Professor

College: Faculty of Natural Resrources and Earth Sciences

Department: Geography and Tourism

Degree: Ph.D

CV Personal Website
FA
Gholamabbas Fallah Ghalhari

Professor Gholamabbas Fallah Ghalhari

College: Faculty of Natural Resrources and Earth Sciences - Department: Geography and Tourism Degree: Ph.D |

My affiliation

Department of Geography and Tourism, University of Kashan, I.R of Iran.

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Thermal comfort atlas of Iran: Insights into comfort and discomfort levels from a 30-year UTCI analysis

Authorsمهدی اصغری,حسین صفری پلنگی,مرضیه عباس نیا,اکرم تبریزی,غلام عباس فلاح قالهری,فهیمه شاکری,سمیه فرهنگ دهقان
JournalEnvironmental Health Engineering and Management Journal
Page number1
Volume number12
IFثبت نشده
Paper TypeFull Paper
Published At2025-11-23
Journal GradeScientific - research
Journal TypeElectronic
Journal CountryIran, Islamic Republic Of
Journal IndexISC ,SCOPUS
KeywordsSeasons, Extreme heat, City planning, Iran, Spatial analysis

Abstract

Abstract Background: This study presents a comprehensive thermal comfort atlas for Iran based on the Universal Thermal Climate Index (UTCI). Utilizing 30 years of meteorological data from 49 stations across the country, the study analyzed seasonal and regional variations in thermal comfort. Methods: De Martonne’s climate classification was used to categorize Iran’s climate, and the UTCI was calculated for different seasons. Kriging interpolation was used to create zoning maps, providing spatial representations of thermal comfort conditions. Results: The results indicate significant regional disparities in thermal comfort. Arid climates experience severe heat stress, particularly in summer, while Mediterranean climates generally offer more favorable conditions. Seasonal variations are also pronounced, with autumn and spring being more comfortable seasons overall. Conclusion: The study highlights the need for urban planning and building design to address thermal comfort challenges, particularly in areas prone to extreme heat or cold. Future research should consider additional thermal comfort indices and expand the analysis to include more recent data and a wider range of climate zones.