References
- 1. Latvijas Republikas Vides aizsardzības un reģionālās attīstības Ministrija. (2006). Atjaunojamo energoresursu izmantošanas pamatnostādnes 2006.–2013. gadam (informativa dala), Rīga.
- 2. Adamovičs, A., Dubrovskis, V., & Plūme, I. (2009). Biomasas izmantošanas ilgstspējības kritēriju pielietošana un pasākumu izstrāde. Rīga: Valsts SIA Vides projekti.
- 3. Zaleskis, G., & Steiks, I. (2016). Alternative energetics dc microgrid with hydrogen energy storage system. Electrical, Control and Communication Engineering, 11, 21–26.
- 4. Zaleskis, G., Steiks, I., Pumpurs, A., & Krievs, O. (2015). DC-AC converter for load supply in autonomous wind-hydrogen power system. In 56th International Scientific Conference on Power and Electrical Engineering of Riga Technical University (RTUCON), 14 October 2015 (pp. 169–173). Riga: RTU Press.
- 5. Directive 2009/28/EC of the European Parliament and of the Council on the promotion of the use of energy from renewable sources. (2009). Official Journal of the European Union, L140/16.
- 6. Directive 2010/31/EU of the European Parliament and of the Council on the energy performance of buildings. (2010). Official Journal of the European Union, L153/13.
- 7. Krohn, S., Morthorst, P.-E., & Awerbuch, S. (2009). The economics of wind energy. European Wind Energy Association.
- 8. Moné, C., Smith, A., Maples, B., & Hand, M. (2015). 2013 cost of wind energy review. National Renewable Energy Laboratory: Golden CO.
- 9. Gadonneix, P., Nadeau, M.-J., Kim, Y. D., Birnbaum, L., Cho, H.-E., Choudhury, A.R. … Frei, C. (2013). World energy perspective. World Energy Council.
- 10. Electricity NET payment system. [Online]. Available at http://sadalestikls.lv/eng/klientiem/pieslegumi/mikrogeneratoru_pieslegums/electricity_net_payment_system/
- 11. Microgenerator connection. [Online]. Available athttp://sadalestikls.lv/eng/klientiem/pieslegumi/mikrogeneratoru_pieslegums/
- 12. Elektrum Dinamiskais and the market price. [Online]. Available at https://www.elektrum.lv/en/for-business/for-customers/elektrum-dinamiskais-and-the-market-price/
- 13. Zaleskis, G., & Rankis, I. (2016). Problem of an estimation of the wind generators economic efficiency in Latvia. In Proceedings of the 20th International Conference ELECTRONICS 2016 (pp. 16–21), Kaunas, Lithuania.
- 14. Bunker, K., Doig, S., Hawley, K., & Morris, J. (2015). Renewable microgrids: Profiles from islands and remote communities across the globe. Rocky Mountain Institute and Carbon War Room.
- 15. De Doncker, R. W. (2012). Future DC grid technology for more decentralized power production and renewable power supplies. IEEE PEDG2012.
- 16. Graillot, A. (2009). Hybrid micro grids for rural electrification: Developing appropriate technology. Maputo: Trama TecnoAmbiental.
- 17. Karlsson, P. (2002). DC distributed power systems. Ph.D. Thesis, Lund University.
- 18. International Renewable Energy Agency. (2012). Renewable energy technologies: Cost analysis series, 1.
- 19. Zaleskis, G. (2017). Research of the automation tasks of the wind generators in the low-power microgrids. Ph.D. Thesis (in Latvian), Riga: Riga Technical University.
Language: English
Page range: 21 - 31
Published on: Jan 24, 2018
Published by: Institute of Physical Energetics
In partnership with: Paradigm Publishing Services
Publication frequency: 6 issues per year
Keywords:
Related subjects:
© 2018 G. Zaleskis, published by Institute of Physical Energetics
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.