Simplified Model for Evaluation of Hydropower Plant Conversion into Pumped Storage Hydropower Plant

1. European Commission. (n.d.). A European Green Deal. Available at https://ec.europa.eu/info/strategy/priorities-2019-2024/european-green-deal_en Search in Google Scholar

2. Li, B., Basu, S., Watson, S., & Russchenberg, H., (2020). Mesoscale Modeling of a ‘Dunkelflaute’ Event. Wind Energy. John Willey & Sons Ltd. 10.1002/we.2554 Search in Google Scholar

3. Nord Pool Group. (n.d.). Nord Pool Market Data. Available at https://www.nordpoolgroup.com/Market-data1/Power-system-data/ Search in Google Scholar

4. Baltputnis, K., Sauhats, A., & Linkevičs, O. (2016). Potential for energy storage in Latvian and Lithuanian price area in the Nord Pool Spot. In IRES 2016, 10th International Renewable Energy Storage Conference, (pp. 1–10), 15–17 March 2016, Düsseldorf Germany. Search in Google Scholar

5. Baltputnis, K., Broka, Z., Sauhats, A., & Petričenko, R. (2016). Short-term optimization of storage power plant operation under market conditions. In 2016 IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC 2016), (pp. 250–255), 7–10 June 2016, Italy, Florence. doi:10.1109/EEEIC.2016.755546610.1109/EEEIC.2016.7555466 Search in Google Scholar

6. Sauhats, A., Coban, H., Baltputnis, K., Broka, Z., Petričenko, R., & Varfolomejeva, R. (2016). Optimal Investment and Operational Planning of a Storage Power Plant. International Journal of Hydrogen Energy, 41 (29), 12443–12453. doi: 10.1016/j.ijhydene.2016.03.07810.1016/j.ijhydene.2016.03.078 Search in Google Scholar

7. Sauhats, A., Varfolomejeva, R., Petrichenko, R., & Kucajevs, J. (2015). A stochastic approach to hydroelectric power generation planning in an electricity market. In IEEE 15th International Conference on Environment and Electrical Engineering (EEEIC 2015), (pp. 883–888), 10–13 June 2015, Rome, Italy. doi:10.1109/EEEIC.2015.716528010.1109/EEEIC.2015.7165280 Search in Google Scholar

8. Eurostat. (n.d.). Renewable Energy Statistics. Available at https://ec.europa.eu/eurostat/statistics-explained/index.php/Renewable_energy_statistics Search in Google Scholar

9. Latvenergo. (n.d.) Latvenergo Group Generation. Available at https://latvenergo.lv/en/par-mums/razosana Search in Google Scholar

10. Latvenergo. (2015). Plavinas HPSP Assessment: Pumping Station Built-in Plavinas HPP Emergency Spillway. Riga: Latvenergo. (in Latvian) Search in Google Scholar

11. Zvirgzdins, J., & Linkevics, O. (2020). Pumped-Storage Hydropower Plants as Enablers for Transition to Circular Economy in Energy Sector: A Case of Latvia. Latvian Journal of Physics and Technical Sciences, 57 (3), 20–31. doi: https://doi.org/10.2478/lpts-2020-001210.2478/lpts-2020-0012 Search in Google Scholar

12. Elering. (2020). Estonian Electricity System Security of Supply Report 2019.Availableat https://elering.ee/sites/default/files/public/varustuskindluse%20konverentsid/SOS%202019%20ENG.pdf Search in Google Scholar

13. Augstsprieguma tikls. (2020). Annual Statement of Transmission System Operator for the Year 2019. Available at https://www.ast.lv/en/content/tso-annual-statement Search in Google Scholar

14. Litgrid. (2020). Development Plan of the Electric Power System and Transmission Grid 2020–2029. Available at https://www.litgrid.eu/index.php/grid-development-/-electricity-transmission-grid-ten-year-development-plan/3851 Search in Google Scholar

15. Central Statistical Bureau of Latvia. Available at https://www.csb.gov.lv/lv/statistika/statistikas-temas/ekonomika/razotaju-cenas/tabulas/rcg060/buvniecibasizmaksu-indeksi-pa-resursu-veidiem Search in Google Scholar

16. Ivanova, P., Sauhats, A., & Linkevics, O. (2016). Towards optimization of combined cycle power plants’ start-ups and shut-down. In 57th International Scientific Conference on Power and Electrical Engineering of Riga Technical University (RTUCON 2016), 13–14 October 2016, Riga & Cesis, Latvia. doi:10.1109/RTUCON.2016.776308110.1109/RTUCON.2016.7763081 Search in Google Scholar

17. Ivanova, P., Sauhats, A., & Linkevics, O. (2019). District Heating Technologies: Is it Chance for CHP Plants in Variable and Competitive Operation Conditions? IEEE Transactions on Industry Applications, 55 (1), 35–42.10.1109/TIA.2018.2866475 Search in Google Scholar