Add to ORKGInternational audienceThe study focuses on the development and illustration of the interactions between urban microclimate and district scale building simulation through a micro co-simulation approach. A zonal microclimatic model developed to serve the needs of the district scale is coupled with an Urban Building Energy Model aiming a twofold objective: enhancement of the boundary conditions and adaptation of the built environment to heat island mitigation measures. The proposed coupling strategy is analysed and presented through a case study of a street canyon. The initial outcomes exhibit deviations between the standalone and the coupled models
The environmental thermal loading on urban buildings is governed by its climate. It has long been re...
Urban 10: Microclimate and RedevelopmentThe energy performance of an urban building depends on its s...
This chapter discusses the simulation of urban thermal microclimate with a focus on heat waves in ur...
Since an important part of the world's energy is used for space cooling and heating of buildings, it...
International audienceThe urban context is often simplified or neglected in Building Energy Models (...
International audienceThis paper introduces a methodology of a coupling procedure based on a detaile...
Rapid urbanization and densification processes are changing microclimatic environments in cities aro...
In the design practice simulation methods are already widely used to support the understanding of en...
International audienceThe transition from building to district scale is supported numerically by the...
Summarization: The indoor energy simulation software of buildings, by default do not include the act...
Improvements in building energy use, air quality in urban canyons and in general urban microclimates...
Urban microclimates are greatly affected by urban form and texture and have a significant impact on ...
The energy performance of an urban building depends on its surroundings. Existing building energy m...
This PhD work investigates the complex links between urban physical processes, through the developme...
International audienceThe study presents how numerical simulations can be used and complexity to def...
The environmental thermal loading on urban buildings is governed by its climate. It has long been re...
Urban 10: Microclimate and RedevelopmentThe energy performance of an urban building depends on its s...
This chapter discusses the simulation of urban thermal microclimate with a focus on heat waves in ur...
Since an important part of the world's energy is used for space cooling and heating of buildings, it...
International audienceThe urban context is often simplified or neglected in Building Energy Models (...
International audienceThis paper introduces a methodology of a coupling procedure based on a detaile...
Rapid urbanization and densification processes are changing microclimatic environments in cities aro...
In the design practice simulation methods are already widely used to support the understanding of en...
International audienceThe transition from building to district scale is supported numerically by the...
Summarization: The indoor energy simulation software of buildings, by default do not include the act...
Improvements in building energy use, air quality in urban canyons and in general urban microclimates...
Urban microclimates are greatly affected by urban form and texture and have a significant impact on ...
The energy performance of an urban building depends on its surroundings. Existing building energy m...
This PhD work investigates the complex links between urban physical processes, through the developme...
International audienceThe study presents how numerical simulations can be used and complexity to def...
The environmental thermal loading on urban buildings is governed by its climate. It has long been re...
Urban 10: Microclimate and RedevelopmentThe energy performance of an urban building depends on its s...
This chapter discusses the simulation of urban thermal microclimate with a focus on heat waves in ur...