Model Chain Approach from Microscale Meteorological Simulation to Building Simulation for Spatially Resolved Indoor Heat Resilience Evaluation
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Elsevier BV
Reference50 articles.
1. Numerical study on the effects of aspect ratio and orientation of an urban street canyon on outdoor thermal comfort in hot and dry climate;F Ali-Toudert;Building and Environment,2006
2. Upgrading the coupled vegetation boundary layer model HIRVAC by new soil water and interception modules;A.-B Baums;Meteorologische Zeitschrift,2005
3. Effects of greenery enhancements for the resilience to heat waves: A comparison of analysis performed through mesoscale (WRF) and microscale (Envimet) modeling;U Berardi;Science of The Total Environment,2020
4. Gesetz zur Einsparung von Energie und zur Nutzung erneuerbarer Energienzur W�rmeund K�lteerzeugung in Geb�uden (Geb�udeenergiegesetz-GEG);Bmi;Bundesgesetzblatt Jahrgang,2020
5. Estimating overheating in European dwellings;Germany Bonn;Architectural Science Review,2017
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1. Impact of outdoor heat adaptation on indoor thermal conditions – Combining microscale urban climate and building performance simulation;Climate Risk Management;2024
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