Research Outputs

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Publication

Die "smarte" Fassade zur Optimierung des Energiebedarfs und thermischen Komforts

2019, Klanatsky, Peter, Plank, Helmut, Heschl, Christian

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Rahmenbedingungen für die effiziente Integration von hybriden Speicherlösungen

2017, Klanatsky, Peter, Heschl, Christian, Plank, Helmut

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Solar radiation as a buildung control parameter

2019, Plank, Helmut, Klanatsky, Peter, Veynandt, Francois, Stelzer, Roman, Traunmüller, Wolfgang

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Publication

Complex glass facade modelling for Model Predictive Control of thermal loads: impact of the solar load identification on the state-space model accuracy

2020-11-26, Veynandt, Francois, Heschl, Christian, Klanatsky, Peter, Plank, Helmut

Above and beyond improving the efficiency of the building envelope and the energy supply system, the demand-side flexibility in terms of load shifting and peak reduction are vital factors in further increasing the share of volatile renewable energy sources. The thermal activation of building components, like floors and ceilings, enables the cost-effective potential for short-term energy storage to fulfil these requirements. In order to exploit the storage capabilities of active building systems, a reliable model predicted control (MPC) approach is required. However, primarily if a large glass façade element is utilised, the appropriate modelling of solar loads is critical for an effective MPC operation. Hence, based on a dynamic building simulation tool, a characteristic map for the solar load prediction of a glass façade system in combination of external venetian blinds was generated to enhance the state-space model approach for the MPC algorithm. The comparison with a conventional state-space model approach shows the integration of a detailed characteristic map can only marginally improve the prediction accuracy. The additional information required from the glass façade manufacturer and the associated simulation effort is not of substantial value. In contrast, the conventional grey box model enables an entirely datadriven parameter identification, without the manufacturers’ data. Furthermore, the MPC optimisation procedure, searching for the best control strategy, can be more efficient (solver-based optimisation), with shorter computing turnaround times.

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Publication

Hybrid photovoltaic-thermal solar collector modelling with parameter identification using operation data

2023, François Veynandt, Peter Klanatsky, Helmut Plank, Christian Heschl

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Development of an innovative blind control strategy to increase the thermal comfort of an office building

2019, Klanatsky, Peter, Plank, Helmut, Heschl, Christian

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Publication

Development of an innovative blind control strategy to increase the thermal comfort of an office building

2019, Klanatsky, Peter, Plank, Helmut, Heschl, Christian

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Publication

Die "smarte" Fassade zur Optimierung des Energiebedarfs und thermischen Komforts

2019, Klanatsky, Peter, Plank, Helmut, Heschl, Christian