Analysis of urban microenvironment & building heat load
- Develop high-level computational fluid dynamics (CFD) analysis technology that can take into account both academic research and industrial applications.
- Optimizing the void size, void height position, and wind direction on the wind energy potential. Temperatures can be lowered by up to 1.5°C within a 100-meter radius around the cooling tower, showcasing its potential to alleviate the urban heat island effect.
- Using wide-area Landsat 9 satellite imagery for cooling paint materials.
- Unmanned aerial vehicle (UAV) integrated with a multispectral system was utilized.


Simulation that reversely applies the cooling tower principle in Da'an District of Taipei City

CFD assessment of the hydropower, environmental control and fire protection engineering in MRT system


