Doctoral Thesis

Completed Doctoral Thesis:

 

 

Titel:

Modeling of the interaction of building users and building technology - potential analysis of decentralized heating and cooling systems with regard to thermal comfort and energy consumption based on an adaptive building controller.

Defended On:

18.03.2021

Processor:

Dr.-Ing. Katharina Boudier

Link:

http://nbn-resolving.de/urn:nbn:de:hbz:386-kluedo-63902

 

Titel:

Prototypical development of a thermoelectric partition for mobile cooling and heating - experimental and numerical evaluation of the comfort and energy saving potential.

Defended on:

(submitted)

Processor:

Mathias Kimmling

 

Duration Doctoral Thesis:

 

Titel:

„Machine Learning“-Approaches to controlling facade systems by integrating raytracing simulations, high-dynamic-range imaging and user feedback.

Processor:

Raghuram Kalyanam

 

Titel:

Development of a predictive control for the generation of heat in buildings, taking into account user behavior and a special focus on the future potential of vehicle-to-grid in combination with power-to-heat.

Processor:

Daniel Schmidt

 

Titel:

Consideration of non-visual effects of light and their impact on the accuracy of lighting energy requirements using multi-channel spectral simulations.

Processor:

Margarita Alwalidi