Comparative analysis of the measured and simulated typical meteorological year in Córdoba, Argentina, using the Urban Weather Generator Software
Due to the impact of the urban heat island on building energy demand, the objective of this study is to generate&nbs...
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| Formato: | Artículo revista |
| Lenguaje: | Español |
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Instituto de Investigaciones Tecnológicas para el Diseño Ambiental del Hábitat Humano
2025
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| Acceso en línea: | https://revistas.unne.edu.ar/index.php/arq/article/view/9035 |
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I48-R154-article-90352025-12-30T14:12:00Z Comparative analysis of the measured and simulated typical meteorological year in Córdoba, Argentina, using the Urban Weather Generator Software Análisis comparativo del año típico meteorológico medido y simulado en Córdoba Argentina mediante el Software Urban Weather Generator Oga Martínez, Lautaro Sulaiman, Halimi Local Climate Zone Urban Simulation Satellite Maps 3D Modeling Methodology Zona Climática Local Simulación urbana Mapas satelitales Modelado 3D Metodología Due to the impact of the urban heat island on building energy demand, the objective of this study is to generate a simulated Typical Meteorological Year (TMYsim) for the largest Local Climate Zone (LCZ) of Córdoba city, Argentina, compared to the available measured TMY. This work is part of research aimed at developing a methodology for optimizing building design in large cities. First, the LCZs are characterized by considering urban density, average height, anthropogenic heat, and vegetation cover (using the World Urban Database and Access Portal Tools (WUDAPT) method). The TMYsim is determined using the Urban Weather Generator 2.0 software and calibrated for temperatura. The results show that the analyzed LCZ achieved accuracies greater than 70%, and the simulated TMY obtained annual NMBE and CVRMSE values of –0.30% and 27.78%, respectively, meeting ASHRAE standard requirements. Debido al impacto de la isla de calor urbana en la demanda energética de edificios el objetivo del presente trabajo es generar un año típico meteorológico simulado (TMY simulado) de la mayor zona climática local (LCZ) de Córdoba capital argentina respecto al TMY medido disponible. Este trabajo es en el marco de la investigación para generar una metodología de optimización del diseño de edificios en grandes urbes. En principio se caracterizan las LCZ considerando la densidad urbana, altura promedio, calor antropogénico y cobertura vegetal (método Word Urban Data base And Portal Tools). Se determina el TMY simulado con el software Urban Weather Generator 2.0 y se calibra la temperatura respecto uno del otro. Los resultados muestran que la LCZ analizada alcanzo una precisión >70% y el TMY sumado valores anuales de NMBE y CVRMSE del -0,30 % y 27,78 % respectivamente, cumpliendo con los requisitos de la norma ASHRAE. Instituto de Investigaciones Tecnológicas para el Diseño Ambiental del Hábitat Humano 2025-12-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Artículo revisado por pares application/pdf application/zip text/xml https://revistas.unne.edu.ar/index.php/arq/article/view/9035 10.30972/arq.269035 Arquitecno; Núm. 26 (2025): diciembre; 24-31 2683-9881 0328-0896 spa https://revistas.unne.edu.ar/index.php/arq/article/view/9035/8786 https://revistas.unne.edu.ar/index.php/arq/article/view/9035/8787 https://revistas.unne.edu.ar/index.php/arq/article/view/9035/8788 https://creativecommons.org/licenses/by-nc/4.0 |
| institution |
Universidad Nacional del Nordeste |
| institution_str |
I-48 |
| repository_str |
R-154 |
| container_title_str |
Revistas UNNE - Universidad Nacional del Noroeste (UNNE) |
| language |
Español |
| format |
Artículo revista |
| topic |
Local Climate Zone Urban Simulation Satellite Maps 3D Modeling Methodology Zona Climática Local Simulación urbana Mapas satelitales Modelado 3D Metodología |
| spellingShingle |
Local Climate Zone Urban Simulation Satellite Maps 3D Modeling Methodology Zona Climática Local Simulación urbana Mapas satelitales Modelado 3D Metodología Oga Martínez, Lautaro Sulaiman, Halimi Comparative analysis of the measured and simulated typical meteorological year in Córdoba, Argentina, using the Urban Weather Generator Software |
| topic_facet |
Local Climate Zone Urban Simulation Satellite Maps 3D Modeling Methodology Zona Climática Local Simulación urbana Mapas satelitales Modelado 3D Metodología |
| author |
Oga Martínez, Lautaro Sulaiman, Halimi |
| author_facet |
Oga Martínez, Lautaro Sulaiman, Halimi |
| author_sort |
Oga Martínez, Lautaro |
| title |
Comparative analysis of the measured and simulated typical meteorological year in Córdoba, Argentina, using the Urban Weather Generator Software |
| title_short |
Comparative analysis of the measured and simulated typical meteorological year in Córdoba, Argentina, using the Urban Weather Generator Software |
| title_full |
Comparative analysis of the measured and simulated typical meteorological year in Córdoba, Argentina, using the Urban Weather Generator Software |
| title_fullStr |
Comparative analysis of the measured and simulated typical meteorological year in Córdoba, Argentina, using the Urban Weather Generator Software |
| title_full_unstemmed |
Comparative analysis of the measured and simulated typical meteorological year in Córdoba, Argentina, using the Urban Weather Generator Software |
| title_sort |
comparative analysis of the measured and simulated typical meteorological year in córdoba, argentina, using the urban weather generator software |
| description |
Due to the impact of the urban heat island on building energy demand, the objective of this study is to generate a simulated Typical Meteorological Year (TMYsim) for the largest Local Climate Zone (LCZ) of Córdoba city, Argentina, compared to the available measured TMY. This work is part of research aimed at developing a methodology for optimizing building design in large cities. First, the LCZs are characterized by considering urban density, average height, anthropogenic heat, and vegetation cover (using the World Urban Database and Access Portal Tools (WUDAPT) method). The TMYsim is determined using the Urban Weather Generator 2.0 software and calibrated for temperatura. The results show that the analyzed LCZ achieved accuracies greater than 70%, and the simulated TMY obtained annual NMBE and CVRMSE values of –0.30% and 27.78%, respectively, meeting ASHRAE standard requirements. |
| publisher |
Instituto de Investigaciones Tecnológicas para el Diseño Ambiental del Hábitat Humano |
| publishDate |
2025 |
| url |
https://revistas.unne.edu.ar/index.php/arq/article/view/9035 |
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2026-01-17T05:01:03Z |
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2026-01-17T05:01:03Z |
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