Data analysis wind monitoring in the Republic of Tatarstan

The paper presents the results of wind monitoring carried out in order to confirm the feasibility of building a wind farm in the Republic of Tatarstan. The task of wind monitoring is to determine and study the dynamics of the average annual wind regime and calculate the wind energy potential at promising sites for placing a wind power plant. On the given sites, after the annual cycle of meteorological parameters measurements, the average annual wind speeds, wind power, preferred directions, wind density, vertical profile of the wind flow and other data necessary for a detailed calculation of the wind power potential of the sites and the selection of specific models of wind generators and their arrangements for operation will be determined at these sites. An important component of the work performed is the development of methods for calculating wind potential at heights other than the heights of direct measurements.

1. Shuisky VP, Alabyan SS, Komissarov AV, et al. World markets of renewable energy sources and national interests of Russia. Problems of forecasting. 2010;3:131-143.

2. Global Wind Energy Council. 2017. Available at: http://www.gwec.net/publications/global-wind-report-2/global-windreport-2016/. Accessed to:21 Apr 2019.

3. REN21: Renewables Global Status Report 2015. Available at: http://www.ren21.net/gsr-2018/chapters/chapter_01/chapter_01/. Accessed to: 11 March 2019.

4. O'Sullivan J. Two utilities opt out of cape wind. January 2015. Available at: www.bostonglobe.com/metro/2015/01/06/major-setback-for-cape-wind. Accessed to: 04 Jul 2019.

5. Vladimir Sidorovich. World Energy Revolution: How renewable energy will change our world. M: Alpina Publisher. 2015. P.208.

6. Kuznetsova EV, Puganova PA. Economic feasibility of using wind energy. Science, education, innovation. 2016. pp. 14-16.

7. Impact of Wind Power Generation in Ireland on the Operation of Conventional Plant and the Economic Implications. 2004. Available at: https://docs.wind-watch.org/EirGrid-WindImpact-Main.pdf. Accessed to: 18 May 2019.

8. Wind Energy Projects in Cold Climate (Edition 2011). Submitted to the Executive Committee of the International Energy Agency Program for Research, Development and Deployment on Wind Energy Conversion Systems. 2012. Available at: http://ieawind.org/indexpagepostings/June%207%20posts/task%2019%20cold_climate%20rp_approved05.12.pdf. Accessed to: 12 Apr 2019.

9. Verma AR, Kamani PL, Kapadia RR. A review on grid power quality improvement in wind energy system using STATCOM with BESS. Journal Emergency Technologies Innovation. Res. 2 (1) (2015).

10. IRENA. Renewable Capacity Statistics. 2016. Available at : https://www.irena.org//media/Files/IRENA/Agency/Publication/2016/IRENA RE Capacity Statistics 2016.pdf. Accessed to: 17 Apr 2019.

11. Valikzhanin IN. Development of wind energy in Russia. SPB : Peter. 2018. P. 187.

12. Daychman RA. Use of wind power plants in the Russian Federation. APPROBATION. Limited company "Approbation". Makhachkala. 2015;1:13-15.

13. Renewable energy sources in Russia. Results of 2015. Reference materials // Association "NP Market Council". Available at: URL http://wwwnp-sp/presscenter/pressinf/index.html. Accessed to: 11 Apr 2019.

14. Denisov RS, Elistratov VV, Sh. Gzenger. Wind energy in Russia: opportunities, barriers, and development prospects. Scientific and Technical Journal of St. Petersburg Polytechnic University. Natural and engineering sciences. 2017;23(2):17-27. doi: 10.18721/JEST.230202.

15. Perminov EM, Rustamov NA. On the prospects of renewable energy. Energy: economics, technology, ecology. 2016;11:19-28.

16. Nikitin AD. Simulation of transients during the operation of an autonomous wind turbine with a backup energy source. Bulletin of SUSU. Series "Energy". 2016;16(1):36–41. doi: 10.14529/power160106.

17. Petrov AE, Mamy SA. The economic potential of renewable energy sources. Scientific journal of KubSAU. 2017;127:164-175.

18. Leukhina OV, Nasyrova EV, Filippova FM, et al. Prospects for the development of wind energy in the Republic of Tatarstan. Energy and Energy Saving: Theory and Practice. Collection of materials of the 4 All-Russian scientific-practical conference. Publishing House: Kuzbass State Technical University named after TF Gorbachev. 2018. pp. 151.1-151.3.