Diploma thesis Luisa Kotte
Report generation for building simulation with definition of input data andcalculation algorithms
Berichterstellung für die Gebäudesimulation mit Definitionder Eingangsdaten und Berechnungsalgorithmen
Climate change is one of the most pressing global problems of our time and has far-reaching far-reaching effects on our environment, society and economy. In order to to meet these challenges, the Paris Agreement was signed in 2015 with the was signed in 2015 with the aim of limiting global warming to well below 2 degrees Celsius compared to pre-industrial levels.
One tool that can be used to achieve the goal of energy efficiency in buildings is thermal building simulation. The aim of this work is to develop automated reports in accordance with the general rules of technology so that the SIM-VICUS program can also be used in planning practice in the future to investigate the building physics of buildings.
Within the scope of this work, automated reports were developed according to the general rules of technology. These were created for SIM-VICUS, an open-source planning tool for building simulations, . The automated reports are intended to enable the program to be used in future in planning practice for the physical analysis of buildings.
The reports created in this work are the summer thermal insulation certificate according to DIN 4108-2:2013-02 and the heat load report according to DIN EN 12831-1:2017-09.
In order for the reports to be created, the necessary characteristic values had to be worked out as input data. Attention must be paid to how these are to be extracted from the simulation calculations. The input data and calculation algorithms were documented so that they could be reproduced. The algorithms were created in the Qt Creator programming environment. In addition, the challenges of static calculations compared to the use of simulations were highlighted and the standards were criticized in their ability to be implemented.
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Supervisor
The work was supervised by Dipl.-Ing. Dirk Weiss. Thesis topic and concept: D. Weiß.
© Dirk Weiß
Research assistant
NameDipl.-Ing. Dirk Weiss
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