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Forschungsergebnisse aus der Bauphysik, Band 62
Arnav Pathak
Hrsg.: Philip Leistner, Gunnar Grün; Fraunhofer IBP, Stuttgart
2025, 133 S., num., mostly col. illus. and tab., Softcover
Sprache: Englisch
Stuttgart, Univ., Diss., 2024
Fraunhofer Verlag
ISBN 978-3-8396-2132-5
Inhalt
The transition toward more-electric aircraft and electric vehicles introduces significant thermal management challenges due to the presence of localized heat sources and the absence of waste heat. To accurately predict the resulting thermal environment, an advanced zonal thermal modeling platform has been developed. This platform integrates high-resolution longwave radiation (RADZO), convection (CONZO), and airflow (VEPZO) models. Designed for applications in aerospace, automotive, and other complex enclosures, it offers a balance between computational efficiency and predictive accuracy. RADZO provides detailed radiative heat exchange calculations using refined surface meshes and precise view factor determination, even in obstructed and intricate geometries. CONZO employs calibrated convection models based on zonal air change per hour (ACH), enabling reliable predictions of surface heating and cooling across a wide range of configurations.
Developed models are validated across full-scale aircraft and automotive mockups. With automated geometry processing and fast simulation times, this hybrid zonal thermal modelling approach delivers good accuracy at low computational load. The zonal thermal model provides platform for engineers and thermal designers seeking a scalable, ready-to-deploy solution for complex indoor environments.
Verfügbare Formate
Longwave Radiation, Convection, Zonal Thermal Model, Indoor Environment, Thermal Comfort,
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