planning:calculating_energy_efficiency:dynamic_simulation

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planning:calculating_energy_efficiency:dynamic_simulation [2020/08/07 23:18] – [Dynamic Simulation using DYNBIL] wfeistplanning:calculating_energy_efficiency:dynamic_simulation [2020/08/07 23:26] (current) – [Dynamic Simulation using DYNBIL] wfeist
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 |Fig. 2 Several zones will be connected to a building model with air flows between the zones as well as components connecting the different zones.| |Fig. 2 Several zones will be connected to a building model with air flows between the zones as well as components connecting the different zones.|
  
-Dynbil has been validated with the detailed measurements in the first Passive House (located in Darmstadt Kranichstein; see [[planning:calculating_energy_efficiency#precise_modeldynamic_simulation|validation diagramme]]). It had been possible to predict the energy consumptions, as well as to test several variations of the model itself. DYNBIL is also the basis for the development of stationary tools.+Dynbil has been validated with the detailed measurements in the first Passive House (located in Darmstadt Kranichstein; see fif. 3). It had been possible to predict the energy consumptions, as well as to test several variations of the model itself. DYNBIL is also the basis for the development of stationary tools. 
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 +|{{:picopen:compare_meas_Dynbil.png|}}| 
 +|Fig. 3 Comparison of measured temperatur developments and the simulation with the DYNBIL model for room air temperature and temperatures at the surface and inside the west facing well.| 
  
 ==== General Considerations on Models used for Simulation ==== ==== General Considerations on Models used for Simulation ====
planning/calculating_energy_efficiency/dynamic_simulation.1596835131.txt.gz · Last modified: 2020/08/07 23:18 by wfeist