A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Entwicklung einer objektorientierten Modellbibliothek zur Ermittlung und Optimierung des hygrothermischen und hygienischen Komforts in Räumen
The development of ventilation strategies for moisture problems, the reduction of the heating and cooling demands, the guarantee of thermal, hygric and hygienic comfort in building construction as well as the performance and the durability of building components are questions which are related to the strong interactions between the climate conditions, the building components and the building envelope. These questions can be answered with the help of efficient building simulation tools before building planning, building design, or building rehabilitation. Until now, models which use the generic concepts of object-oriented modeling language standards like Modelica for the simulation of the hygrothermal analysis of the interactions between building components and building envelope are missing in building physics. In this thesis, the advantages of the generic concepts of Modelica are used to develop a flexible building physics library for the simulation of the hygrothermal behavior of building components and building envelope under unsteady conditions. This model library is validated and is used to develop a controlled ventilation system to minimize the risk of mould growth while preventing hygrothermal and hygienic discomfort in building rooms.
Entwicklung einer objektorientierten Modellbibliothek zur Ermittlung und Optimierung des hygrothermischen und hygienischen Komforts in Räumen
The development of ventilation strategies for moisture problems, the reduction of the heating and cooling demands, the guarantee of thermal, hygric and hygienic comfort in building construction as well as the performance and the durability of building components are questions which are related to the strong interactions between the climate conditions, the building components and the building envelope. These questions can be answered with the help of efficient building simulation tools before building planning, building design, or building rehabilitation. Until now, models which use the generic concepts of object-oriented modeling language standards like Modelica for the simulation of the hygrothermal analysis of the interactions between building components and building envelope are missing in building physics. In this thesis, the advantages of the generic concepts of Modelica are used to develop a flexible building physics library for the simulation of the hygrothermal behavior of building components and building envelope under unsteady conditions. This model library is validated and is used to develop a controlled ventilation system to minimize the risk of mould growth while preventing hygrothermal and hygienic discomfort in building rooms.
Entwicklung einer objektorientierten Modellbibliothek zur Ermittlung und Optimierung des hygrothermischen und hygienischen Komforts in Räumen
Nouidui, Thierry Stephane (author)
2008
Theses
Electronic Resource
Unknown
| UB Braunschweig | 2008
| British Library Online Contents | 2009