Climatic conditions strongly affect the energy performance of buildings, and due to the synergy between global climate change and the Urban Heat Island (UHI) effect, the climatic conditions inside and outside the city are highly different. However, weather data collected at airports are commonly used for building energy simulations and these data do not take into account real temperature distribution in cities. Many studies in the literature address the topic but mostly considering only a couple of urban and non-urban stations. In this paper, the urban climate in Rome, Italy, is analysed after monitoring of the air temperature and relative humidity in four selected neighbourhoods and one reference station from October 2014 until September 2...
Cities often show nighttime air temperatures higher by 3–4 ◦C than adjacent non-urban areas. This yi...
The increase in urbanization leads to an intensification of the heat island effect, due to several f...
Cities often show nighttime air temperatures higher by 3-4. °C than adjacent non-urban areas. This y...
It is well known that the building sector is one of the main responsible for energy consumption in t...
This study examined the atmospheric urban heat island (UHI) phenomenon within the city of Rome (Ital...
Climate changes and urban sprawl are dramatically increasing the heat island effect in urban environ...
It is well known that the construction sector is one of the main sectors responsible for energy cons...
The work investigates the Urban Heat Island (UHI) phenomenon and its effects on building energy perf...
Institutional buildings are very important considering the impact on energy consumption of a city. D...
Urban heat island has significant impacts on buildings? energy consumption. The phenomenon is ass...
A vast literature describes how much urban heat islands impact the energy needs of urban buildings. ...
The urban heat island (UHI) effect is constantly increasing the energy consumption of buildings, esp...
The research progress in building energy modeling and simulation has led to the widespread diffusion...
Global and local climate change increases the occurrence and the magnitude of extreme phenomena, as ...
The urban heat island (UHI) effect is constantly increasing the energy consumption of buildings, esp...
Cities often show nighttime air temperatures higher by 3–4 ◦C than adjacent non-urban areas. This yi...
The increase in urbanization leads to an intensification of the heat island effect, due to several f...
Cities often show nighttime air temperatures higher by 3-4. °C than adjacent non-urban areas. This y...
It is well known that the building sector is one of the main responsible for energy consumption in t...
This study examined the atmospheric urban heat island (UHI) phenomenon within the city of Rome (Ital...
Climate changes and urban sprawl are dramatically increasing the heat island effect in urban environ...
It is well known that the construction sector is one of the main sectors responsible for energy cons...
The work investigates the Urban Heat Island (UHI) phenomenon and its effects on building energy perf...
Institutional buildings are very important considering the impact on energy consumption of a city. D...
Urban heat island has significant impacts on buildings? energy consumption. The phenomenon is ass...
A vast literature describes how much urban heat islands impact the energy needs of urban buildings. ...
The urban heat island (UHI) effect is constantly increasing the energy consumption of buildings, esp...
The research progress in building energy modeling and simulation has led to the widespread diffusion...
Global and local climate change increases the occurrence and the magnitude of extreme phenomena, as ...
The urban heat island (UHI) effect is constantly increasing the energy consumption of buildings, esp...
Cities often show nighttime air temperatures higher by 3–4 ◦C than adjacent non-urban areas. This yi...
The increase in urbanization leads to an intensification of the heat island effect, due to several f...
Cities often show nighttime air temperatures higher by 3-4. °C than adjacent non-urban areas. This y...