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Artykuły w czasopismach na temat "Stress thermique urbain"
Crétat, Julien, Yves Richard, Olivier Planchon, Justin Emery, Melissa Poupelin, Mario Rega, Julien Pergaud i in. "Impact de la topographie et de la circulation atmosphérique sur l’îlot de chaleur urbain en situation de canicule (Dijon, France)". Climatologie 20 (2023): 10. http://dx.doi.org/10.1051/climat/202320010.
Pełny tekst źródłaHanafi, Abdelhakim, i Djamel Alkama. "Stratégie d’amélioration du confort thermique d’une place publique d’une ville saharienne 'Biskra/Algérie'". Journal of Renewable Energies 19, nr 3 (17.10.2023): 465–80. http://dx.doi.org/10.54966/jreen.v19i3.585.
Pełny tekst źródłaTahirou, Seydou, Patrice Zerbo, Yacouba Sanou, Samuel Pare i Manan Nassirou Ado. "Perceptions Paysannes Des Aléas Climatiques Sur La Production Du Riz Sur Le Périmètre Irrigué De Saga Dans La Vallée Du Fleuve Niger". European Scientific Journal, ESJ 18, nr 3 (31.01.2022): 217. http://dx.doi.org/10.19044/esj.2022.v18n3p217.
Pełny tekst źródłaGagné, François, Christian Blaise, Jocelyne Pellerin i Michel Fournier. "Études de biomarqueurs chez la mye commune (Mya arenaria) du fjord du Saguenay : bilan de recherches (1997 à 2006)". 22, nr 2 (15.06.2009): 253–69. http://dx.doi.org/10.7202/037484ar.
Pełny tekst źródłaRozprawy doktorskie na temat "Stress thermique urbain"
Qureshi, Aiman Mazhar. "Modélisation et aide à la décision multicritère du confort thermique en milieu urbain". Electronic Thesis or Diss., Amiens, 2022. http://www.theses.fr/2022AMIE0081.
Pełny tekst źródłaUrban areas are the prevalent places of residence for people and are vulnerable to exasperating weather conditions such as heat stress. Periods of heat waves are increasingly reoccurring in the current atmosphere, and they are known to pose a serious and major threat to the health of human beings all over the world. Urban heat islands and heat waves increase thermal risks in urban areas and the vulnerability of the urban population. The increase in the number of heat episodes in urban areas has become a significant concern due to its adverse effects on human health and economic activities. The objective of this work is to identify the sensitivity of thermal comfort and their action variables, the modeling of thermal stress using the most influential meteorological variables, the identification of risk factors and highlight the correlation of meteorological trends and influencing parameters, solutions for mitigating heat stress and mathematical support for decision-making. Several machine and deep learning techniques were used for the system dynamic modeling of the thermal comfort. Optimized results are obtained from the Gated Recurrent Unit (GRU) model which is used for the development of a web simulation tool allowing the inhabitants to evaluate their level of comfort according to the weather conditions. A heat vulnerability index map has been developed to indicate the vulnerability of occupants considering different aspects in a medium-sized city such as planning, green space, density, energy, quality air, water bodies and extreme heat events. The obtained results highlighted that poor air quality and heat events are interrelated, which draws the attention for decision-makers to intervene the additional measures in high-risk places. Field monitoring is carried out using sensors and a thermal camera to measure relevant variables and take action to minimize the effects of heat stress. In Last, multi-criteria decision-making methods were applied for the initial development of a decision support tool for the selection of urban heat resilience interventions that allows flexible, dynamic, and predictive use for designers and the users
Redon, Emilie. "Modélisation de la végétation urbaine comme régulateur thermique". Thesis, Toulouse 3, 2017. http://www.theses.fr/2017TOU30240/document.
Pełny tekst źródłaVegetation influences the urban climate, from road to city scale. Street trees implementation is an alternative technic to reduce the urban heat island and to improve the thermal comfort. They modify the radiative and energetic balances by intercepting and absorbing a part of the solar radiation, provide shade, increase the humidity with evapotranspiration, and alter the air flow in the urban canyons. The TEB model is one the rare urban climate models taking into account vegetation. It integrates parameterizations dedicated to low vegetation and green roofs. It can represent the small-scale interactions between mineral surfaces, vegetation and the atmosphere. During this PhD thesis, a parameterization has been developed to model the radiative, energetic and dynamical effects of street and garden trees in urban spaces. An explicit tree canopy has been integrated into the urban canyon, above gardens but also streets. The ISBA vegetation scheme has been used, and included in TEB, to represent these vegetated entities (both low and high strata). The radiative computations of the TEB model have been improved in order to represent the shading and attenuation of radiation due to trees, as well as all the infra-red interactions between the urban elements. An evaluation of the radiative budget has been done thanks to a comparison with the high- resolution architectural model SOLENE, using numerous different urban canyons with several layouts of tree canopies. Then, the energy fluxes computed by ISBA have been dis- aggregated between contributions from high and low vegetation. Fluxes allocated to the trees have been redistributed on the vertical in order to alter the microclimate at realistic height, i.e. respecting the position of the tree crown. A specific drag force of trees on the airflow is simulated. An evaluation has been done on a real experimental site in a canyon-like courtyard with trees where several microclimatic data were collected. The results show an impressive improvement of the surface temperatures of walls and ground, air temperature and wind speed. In the future, these implementations will allow to simulate more realistically several adaptation strategies using greening at city scale, and to evaluate their efficiency in terms of urban heat island mitigation, improvement of human comfort and building energy consumption
Doya, Maxime. "Analyse de l'impact des propriétés radiatives de façades pour la performance énergétique de bâtiments d'un environnement urbain dense". Phd thesis, Université de La Rochelle, 2010. http://tel.archives-ouvertes.fr/tel-00537691.
Pełny tekst źródłaKsiążki na temat "Stress thermique urbain"
Hashem, Akbari, United States. Environmental Protection Agency. Climate Change Division., Lawrence Berkeley Laboratory i United States. Dept. of Energy., red. Cooling our communities: A guidebook on tree planting and light-colored surfacing. Washington, D.C: U.S. Environmental Protection Agency, Office of Policy Analysis, Climate Change Division, 1992.
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