Dynamic Modelling of the Sølia Hydropower System Using Modelica. Hector Camilo Zambrano Hernandez Master's thesis, University of South-Eastern Norway, Porsgrunn, May, 2020.
abstract   bibtex   
A permanently increasing electrical power demand in today's world pushes society into exploring every possible source of power to be converted into electricity. This tendency is turning the looks to renewable sources like hydro, solar and wind power. In a globalised word where energy can be produced, bought and sold in real time, studying and understanding these power systems can be advantageous. There are different software tools that allow modelling and simulation to be performed on hydropower systems. Commercial products can be applied to large scale hydropower systems in order to model and predict their behaviour, this through extensive development. The work developed in this thesis combines open source libraries for the Modelica language such as OpenHPL and OpenISPL, the Dymola modelling laboratory based on Modelica is used to load the libraries. It is based on a small hydropower system owned by Småkraft AS and an existing hydraulic model developed previously at the University of South-Eastern Norway. The model developed through this thesis allows to simulate the complete hydropower system, including the main control unit and the different internal control units or processes like water level control and frequency control. The overall results showed consistency although further tuning and development of the model would increase accuracy.
@mastersthesis{HectorCamiloZambranoHernandez2020,
  title = {Dynamic {{Modelling}} of the {{S{\o}lia Hydropower System Using Modelica}}},
  author = {{Hector Camilo Zambrano Hernandez}},
  year = {2020},
  month = may,
  address = {Porsgrunn},
  abstract = {A permanently increasing electrical power demand in today's world pushes society into exploring every possible source of power to be converted into electricity. This tendency is turning the looks to renewable sources like hydro, solar and wind power. In a globalised word where energy can be produced, bought and sold in real time, studying and understanding these power systems can be advantageous. There are different software tools that allow modelling and simulation to be performed on hydropower systems. Commercial products can be applied to large scale hydropower systems in order to model and predict their behaviour, this through extensive development. The work developed in this thesis combines open source libraries for the Modelica language such as OpenHPL and OpenISPL, the Dymola modelling laboratory based on Modelica is used to load the libraries. It is based on a small hydropower system owned by Sm{\aa}kraft AS and an existing hydraulic model developed previously at the University of South-Eastern Norway. The model developed through this thesis allows to simulate the complete hydropower system, including the main control unit and the different internal control units or processes like water level control and frequency control. The overall results showed consistency although further tuning and development of the model would increase accuracy.},
  school = {University of South-Eastern Norway},
  annotation = {Master's thesis},
  file = {/home/dietmarw/FoU/Publications/zotero/storage/UYAAVXTV/Hector Camilo Zambrano Hernandez - 2020 - Dynamic Modelling of the Sølia Hydropower System U.pdf}
}
Downloads: 0
About
Documentation
Keywords
Search
Users
Terms and Conditions of Use
Privacy Policy
Sitemap
© BibBase.org 2021