Add to ORKG\u3cp\u3eThere is great potential in the use of urban wind energy to form electricity generation modules over a distribution network to maximize wind power production in densely urbanized areas. The objective of this study is to therefore develop computational fluid dynamics (CFD)-based evaluation procedures to determine potential mounting sites of wind turbines and obtain estimates of wind power by taking into consideration the details of the local urban topography and boundary conditions of micro-environments. The predictions, including those of the wind velocity and direction as well as turbulence intensity, are compared with field measurements via ultrasonic anemometers and thermal flow velocity probes at 10 monitored sites over five di...
In this paper, a review is presented of academic literature regarding urban wind speeds for building...
Growing concern over the effects of carbon emissions and resulting climate change have highlighted t...
In order to have better insight into the physics of the urban wind turbines, a Computational Fluid D...
Various wind resource assessment (WRA) methods have been applied to explore the feasibility of insta...
De-centralised renewable energy power generation is proposed to be a significant part of the future ...
The wind profile in the urban boundary layer is described as following a logarithmic curve above the...
The world energy demand is rising with an increasing need for renewable and sustainable energy sourc...
Wind energy plays a critical role as a safe and clean source of energy. However, the complexity of w...
To help design wind turbines around numerous high-rise buildings with promising wind in Hong Kong, t...
To understand the favourable locations for maximum yield of urban wind energy, understanding the flo...
Wind energy in urban environments is a rapidly developing technology influenced by the terrain speci...
Urban wind resource assessments (WRAs) contribute to the effective exploitation of wind energy and t...
Urban environments are experiencing a rapid growth in population and energy consumption. In response...
The urban environment constitutes a promising potential for wind energy harvesting where the wind tu...
Previous findings have indicated better performance attained by modified urban morphologies for wind...
In this paper, a review is presented of academic literature regarding urban wind speeds for building...
Growing concern over the effects of carbon emissions and resulting climate change have highlighted t...
In order to have better insight into the physics of the urban wind turbines, a Computational Fluid D...
Various wind resource assessment (WRA) methods have been applied to explore the feasibility of insta...
De-centralised renewable energy power generation is proposed to be a significant part of the future ...
The wind profile in the urban boundary layer is described as following a logarithmic curve above the...
The world energy demand is rising with an increasing need for renewable and sustainable energy sourc...
Wind energy plays a critical role as a safe and clean source of energy. However, the complexity of w...
To help design wind turbines around numerous high-rise buildings with promising wind in Hong Kong, t...
To understand the favourable locations for maximum yield of urban wind energy, understanding the flo...
Wind energy in urban environments is a rapidly developing technology influenced by the terrain speci...
Urban wind resource assessments (WRAs) contribute to the effective exploitation of wind energy and t...
Urban environments are experiencing a rapid growth in population and energy consumption. In response...
The urban environment constitutes a promising potential for wind energy harvesting where the wind tu...
Previous findings have indicated better performance attained by modified urban morphologies for wind...
In this paper, a review is presented of academic literature regarding urban wind speeds for building...
Growing concern over the effects of carbon emissions and resulting climate change have highlighted t...
In order to have better insight into the physics of the urban wind turbines, a Computational Fluid D...