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Model Simplification on Energy and Comfort Simulation Analysis for Residential Building Design in Hot and Arid Climate

Sara Elhadad, Chro Hama Radha, István Kistelegdi, Bálint Baranyai, János Gyergyák

2020Energies30 citationsDOIOpen Access PDF

Abstract

Accurate building physics performance analysis requires time-consuming, detailed modeling, and calculation time requirement. This paper evaluates the impact of model simplifications on thermal and visual comfort as well as energy performance. In the framework of dynamic zonal thermal simulation, a case study of a residential building in hot climate is investigated. A detailed model is created and simplified through four scenarios, by incrementally reducing the number of thermal zones from modeling every space as a separate zone to modeling the building as a single zone. The differences of total energy and comfort performance in the detailed and simplified models are analyzed to evaluate the grade of the simplifications’ accuracy. The results indicate that all simplification scenarios present a marginal average deviation in total energy demand and thermal comfort by less than 20%. Combining rooms with similar thermal features into a zone presents the optimal scenario, while the worst scenario is the single-zone model. Results showed that thermal zone merging as a simulation simplification method has its limitations as well, whereas a too intensive simplification can lead to undesired error rates. The method is well applicable in further early-stage design and development tasks, specifically in large-scale projects.

Topics & Concepts

Thermal comfortComputer scienceEnergy modelingThermalSimulation modelingBuilding energy simulationScale (ratio)SimulationEnergy (signal processing)Climate zonesEnvironmental scienceMeteorologyEnergy performanceStatisticsMathematicsQuantum mechanicsPhysical geographyGeographyMathematical economicsPhysicsBuilding Energy and Comfort OptimizationUrban Heat Island MitigationWind and Air Flow Studies