Litcius/Paper detail

Incorporating convective heat transfer and humidity effects in urban microclimate modeling: Should we care?

Sina Rahimi, Patrick Kastner, Umberto Berardi

2025Building and Environment15 citationsDOIOpen Access PDF

Abstract

• Convective heat transfers and humidity effects in microclimate modeling are discussed. • Customized solver buoyantHumidityPimpleFoam models humidity with dynamic BCs. • Solver captures temp & humidity fluctuations, matching real data with high accuracy. • Humidity inclusion boosts prediction of UHI, energy demands, and public health. • Time-dependent BCs allow simulation to reflect varying conditions, enhancing realism. Accurate microclimate data, obtained through observation or CFD models, is crucial for urban design and environmental improvements. One approach to quantifying microclimate conditions involves the use of isothermal CFD simulations combined with convective heat transfer and relative humidity modeling, implemented via the buoyantHumidityPimpleFoam solver in OpenFOAM. This research investigates the additional complexity when incorporating these factors into unsteady-state modeling for urban microclimate simulations. This study reports the approaches through simulations employing a simplified canyon model. The study site is the campus of the Toronto Metropolitan University campus in Toronto, Ontario, Canada. The simulation data is validated using real-time data collected from the weather station located on the roof of one of the buildings on the downtown campus. By comparing the simulated data with real-time observations, the study assesses the effectiveness of the new features and evaluates their suitability for integration into existing urban microclimate modeling frameworks. The results show that adding humidity not only improves the model realism but also greatly increases its ability to predict complex urban microclimate dynamics. These findings highlight the importance of this approach for applications such as thermal comfort optimization, public health planning, and climate resilience strategies, demonstrating its potential to advance urban microclimate simulations.

Topics & Concepts

MicroclimateEnvironmental scienceConvectionHumidityUrban heat islandMeteorologyConvective heat transferHeat transferAtmospheric sciencesRelative humidityGeographyMechanicsGeologyPhysicsArchaeologyUrban Heat Island MitigationWind and Air Flow StudiesBuilding Energy and Comfort Optimization