Cheuk Ming Mak

What is he best known for?

The fields of study he is best known for:

• Statistics
• Acoustics
• Electrical engineering

His main research concerns Computational fluid dynamics, Meteorology, Wind speed, Wind tunnel and Ventilation. His research in Computational fluid dynamics intersects with topics in Airflow, Marine engineering, Turbulence, Flow and Wind direction. His Marine engineering research incorporates themes from Simulation and Windcatcher.

His research in Meteorology intersects with topics in Microclimate and Precinct. His research investigates the connection between Wind speed and topics such as Pedestrian that intersect with problems in Lift and Building design. His work on Natural ventilation as part of general Ventilation study is frequently linked to Environmental quality, bridging the gap between disciplines.

His most cited work include:

• The assessment of the performance of a windcatcher system using computational fluid dynamics (94 citations)
• A new method to assess spatial variations of outdoor thermal comfort: Onsite monitoring results and implications for precinct planning (83 citations)
• The effects of daylighting and human behavior on luminous comfort in residential buildings: A questionnaire survey (70 citations)

What are the main themes of his work throughout his whole career to date?

His primary scientific interests are in Acoustics, Computational fluid dynamics, Ventilation, Structural engineering and Duct. His Acoustics study combines topics in areas such as Finite element method and Helmholtz resonator. His Computational fluid dynamics research includes elements of Marine engineering, Turbulence, Meteorology, Flow and Wind direction.

He studies Ventilation, namely Natural ventilation. Cheuk Ming Mak has researched Structural engineering in several fields, including Vibration isolation and Sound power. His studies deal with areas such as Pedestrian and Wind tunnel as well as Wind speed.

He most often published in these fields:

• Acoustics (28.75%)
• Computational fluid dynamics (18.33%)
• Ventilation (14.58%)

What were the highlights of his more recent work (between 2016-2021)?

• Computational fluid dynamics (18.33%)
• Pedestrian (7.08%)
• Thermal comfort (8.75%)

In recent papers he was focusing on the following fields of study:

His primary areas of study are Computational fluid dynamics, Pedestrian, Thermal comfort, Wind speed and Meteorology. His Computational fluid dynamics research is multidisciplinary, relying on both Dispersion, Marine engineering, Turbulence, Flow and Wind direction. His Turbulence research includes themes of Acoustics and Wind profile power law.

His Thermal comfort study incorporates themes from Thermal, Microclimate and Building design, Architectural engineering. Cheuk Ming Mak has included themes like Natural ventilation and Wind tunnel in his Wind speed study. His Meteorology study integrates concerns from other disciplines, such as Airflow and Climate index.

Between 2016 and 2021, his most popular works were:

• Effects of lift-up design on pedestrian level wind comfort in different building configurations under three wind directions (64 citations)
• The impact of indoor environmental quality on work productivity in university open-plan research offices (57 citations)
• Numerical evaluations of urban design technique to reduce vehicular personal intake fraction in deep street canyons. (52 citations)

In his most recent research, the most cited papers focused on:

• Statistics
• Acoustics
• Electrical engineering

The scientist’s investigation covers issues in Thermal comfort, Wind speed, Meteorology, Pedestrian and Wind tunnel. Cheuk Ming Mak combines subjects such as Urban heat island, Thermal, Microclimate and Architectural engineering with his study of Thermal comfort. His Meteorology study frequently links to adjacent areas such as Canyon.

His Pedestrian research incorporates elements of Lift, Building design and Precinct. His studies in Wind tunnel integrate themes in fields like Dispersion, Turbulence, Vortex, Ventilation and Detached eddy simulation. His Turbulence research incorporates themes from Computational fluid dynamics and Dispersion.

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