One main research activity is to find methods to produce more electrical power from the Norwegian hydro power system. This may be achieved by mathematical models or improved measuring techniques. It is also important to ensure reliable transmission and distribution of electrical power to all customers. Many components in the grid may be highly stressed, e.g. high temperatures. The International Electrotechnical Commission (IEC) has made regulations on allowable maximal temperatures in specific components. An ongoing project is about how changes in geometry may reduce the maximum temperature to be inside the IEC regulation.
At the moment we have fruitful cooperation with:
- Skagerak Kraft
- ABB Power Products division
- Norsk vannkraftsenter (NVKS)
- Energi Norge
Ongoing research projects
The main objective is to improve the thermal performance of medium voltage distribution switchgear. Computer modeling and optimized design of critical components is applied in order to reduce heat dissipation in contacts and conductors and to improve the heat transport to surroundings.
Modelling and simulation of hydro power systems with the help of the modelling language Modelica. This includes models of the water way and of the electrical power systems including electrical distribution.
Improved functionality of power systems using Model Predictive Control. Through Model Predictive control (MPC), flexible power factor control on large generators located close to points of high demands should be realized. This could secure a necessary enhancement of power system stability. In this PhD-study, the Modelica modeling language is used for stability analysis and simulations in addition to conventional simulation tools. This PhD project initiated by Statkraft is a part of the ongoing research field “Hydropower Control and Optimization” at Telemark University College (TUC).
Sensors and actuators for turbine pipes. The research is focused on: i) developing sensor networks for online monitoring of fouling build-up in turbine pipes, and ii) fundamental studies of electric field effects on energy loss in turbine pipes