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      Development and evaluation of a building energy model integrated in the TEB scheme

      , , , ,
      Geoscientific Model Development
      Copernicus GmbH

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          Abstract

          Abstract. The use of air-conditioning systems is expected to increase as a consequence of global-scale and urban-scale climate warming. In order to represent future scenarios of urban climate and building energy consumption, the Town Energy Balance (TEB) scheme must be improved. This paper presents a new building energy model (BEM) that has been integrated in the TEB scheme. BEM-TEB makes it possible to represent the energy effects of buildings and building systems on the urban climate and to estimate the building energy consumption at city scale (~10 km) with a resolution of a neighbourhood (~100 m). The physical and geometric definition of buildings in BEM has been intentionally kept as simple as possible, while maintaining the required features of a comprehensive building energy model. The model considers a single thermal zone, where the thermal inertia of building materials associated with multiple levels is represented by a generic thermal mass. The model accounts for heat gains due to transmitted solar radiation, heat conduction through the enclosure, infiltration, ventilation, and internal heat gains. BEM allows for previously unavailable sophistication in the modelling of air-conditioning systems. It accounts for the dependence of the system capacity and efficiency on indoor and outdoor air temperatures and solves the dehumidification of the air passing through the system. Furthermore, BEM includes specific models for passive systems, such as window shadowing devices and natural ventilation. BEM has satisfactorily passed different evaluation processes, including testing its modelling assumptions, verifying that the chosen equations are solved correctly, and validating the model with field data.

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          Most cited references21

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          EnergyPlus: creating a new-generation building energy simulation program

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            A Physically-Based Scheme For The Urban Energy Budget In Atmospheric Models

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              The urban energy balance

              T.R. Oke (2016)
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                Author and article information

                Journal
                Geoscientific Model Development
                Geosci. Model Dev.
                Copernicus GmbH
                1991-9603
                2012
                March 29 2012
                : 5
                : 2
                : 433-448
                Article
                10.5194/gmd-5-433-2012
                0e541d41-8158-4b46-9f18-a557b9d72feb
                © 2012

                https://creativecommons.org/licenses/by/3.0/

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