Modelling and Optimisation of Deviation in Hydro Power Production. Winkler, D., Thoresen, H. M., Andreassen, I., Perera, M. A. S., & Sharefi, B. R. In Proceedings of the 8th International Modelica Conference, volume 1. Modelica Association and Technische Universität Dresden.
doi  abstract   bibtex   
In 2009 a new price system for the produced power was introduced for Norwegian hydro power plants. Basically a power producer gets punished if his production deviates from the scheduled production. The power plant is paid for the actual production: if too much power is produced that the price for the excess power is low. Even worse if too little power is produced the power plant has to pay a fine. If such deviation occurs it is very important to identify components/systems that are responsible on order to adjust the controller or replace the faulty equipment. This paper describes the first step in problem solving, by presenting the development of a model of a hydro power plant that shows differing power production. The modelling part was done in Modelica\ myr using the \ HPL of Modelon AB. The model was parametrised using construction data and validated using data from test and operation runs.
@inproceedings{Winkler2011,
  title = {Modelling and {{Optimisation}} of {{Deviation}} in {{Hydro Power Production}}},
  booktitle = {Proceedings of the 8th {{International Modelica Conference}}},
  author = {Winkler, Dietmar and Thoresen, Hege Marie and Andreassen, Ingvar and Perera, Magamage Anushka Sampath and Sharefi, Behzad Rahimi},
  date = {2011-03-21},
  volume = {1},
  publisher = {{Modelica Association and Technische Universität Dresden}},
  location = {{Dresden, Germany}},
  doi = {10.3384/ecp1106318},
  abstract = {In 2009 a new price system for the produced power was introduced for Norwegian hydro power plants. Basically a power producer gets punished if his production deviates from the scheduled production. The power plant is paid for the actual production: if too much power is produced that the price for the excess power is low. Even worse if too little power is produced the power plant has to pay a fine. If such deviation occurs it is very important to identify components/systems that are responsible on order to adjust the controller or replace the faulty equipment. This paper describes the first step in problem solving, by presenting the development of a model of a hydro power plant that shows differing power production. The modelling part was done in Modelica\textbackslash myr using the \textbackslash HPL of Modelon AB. The model was parametrised using construction data and validated using data from test and operation runs.},
  isbn = {978-91-7393-096-3 Linköping Electronic Conference Proceedings ISSN (print):1650-3686 ISSN (online):1650-3740},
  keywords = {Hydro Power Systems,HydroPlant Library,Modelica,Test and Validation},
  file = {/home/dietmarw/FoU/Publications/zotero/storage/AGVQGWFU/FinalAbstract.pdf;/home/dietmarw/FoU/Publications/zotero/storage/FDURT6KC/Modelica2011-PresentationWinkler.pdf;/home/dietmarw/FoU/Publications/zotero/storage/PGJ6ENG7/FinalPaper.pdf}
}
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