Increasing Energy Efficiency and Reliability of Electric Supply of Low Power Consumers

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2020 by IJETT Journal
Volume-68 Issue-12
Year of Publication : 2020
Authors : N.N. Sadullaev, U.T. Mukhamedkhanov, SH.N. Nematov, F.O. Sayliev
DOI :  10.14445/22315381/IJETT-V68I12P208

Citation 

MLA Style: N.N. Sadullaev, U.T. Mukhamedkhanov, SH.N. Nematov, F.O. Sayliev. Increasing Energy Efficiency and Reliability of Electric Supply of Low Power Consumers International Journal of Engineering Trends and Technology 68.12(2020):43-47. 

APA Style:N.N. Sadullaev, U.T. Mukhamedkhanov, SH.N. Nematov, F.O. Sayliev. Increasing Energy Efficiency and Reliability of Electric Supply of Low Power Consumers.  International Journal of Engineering Trends and Technology, 68(12), 43-47.

Abstract
In the article, a principle construction "hybrid" is a source of electric power consisting of wind power installation with a mechanical store of Energy, the solar panel with battery in common working with an electric network. The method of estimating the Energy of efficiency of the objects eating from several energy sources is offered. It is proved the efficiency of application of such source of the electric power low power consumers. It is proposed to use the coefficients used in assessing industrial enterprises` energy efficiency in assessing the efficiency of using alternative energy sources. It also offers a low-speed axial generator designed for the wind turbine. The use of an axial generator in wind power plants reduces the gearboxes` cost in the system and allows efficient use of the available energy flows. Hybrid systems consisting of alternative energy sources are a key factor in improving the reliability of power supply to remote areas. Improving the reliability of power supply allows improving the region`s socio-economic situation, developing small business and private entrepreneurship.

Reference
[1] D.A. Gaynanov, E.S. Kashirina, & Y.F Khabirova. On an Effective Ratio of Conventional to Renewable Energy Sources in the Russian Electric-Power Industry. Russian Electrical Engineering, 89, (2018) 9-12, doi:10.3103/S1068371218010030.
[2] U.A. Tadjiev, E.I.Kiseleva, R.A. Zakhidov. Features of the formation of the wind flow over the territory of Uzbekistan and opportunities for its use for electric power: Part 2. Applied Solar Energy, 50 (2014) 265–272, doi:10.3103/S0003701X14040161.
[3] B. Urishev. Microgrid Control Based on the Use and Storage of Renewable Energy Sources. Applied Solar Energy, 54 (2018) 388–391, doi: 10.3103/S0003701X18050201.
[4] J.O. Izzatillaev, Yusupov Z. Short-term Load Forecasting in Grid-connected Microgrid. 7th International Istanbul Smart Grids and Cities Congress and Fair, (ICSG 2019), 71–75, ,doi:10.1109/SGCF.2019.8782424.
[5] Zhukov, VV, Shmelev, AV & Mikheev. DV An Evaluation of the Effect of Weakly Formalized Factors on the Reliability Index of Power Facilities. Russian Electrical Engineering, 89 (2018) 332-339, doi:10.3103/S1068371218050140.
[6] M.Veeramani, J.Prince Joshua Gladson, C.K.Sundarabalan, J.Sanjeevikumar. An Efficient Microgrid Management System for Rural Areas using Arduino. International Journal of Engineering Trends and Technology (IJETT), 40(6), (2016) 335- 341. doi: 10.14445/22315381/IJETT-V40P254
[7] S.V.Kiseleva, O.S. Popel, A.B. Tarasenko, R.R. Avezov. Efficiency estimation for the grid-tie photovoltaic stations construction in some regions of Central Asia and Transcaucasia. Applied Solar Energy, 53 (2017) 306–311, doi:10.3103/S0003701X17040090.
[8] Karuna Nikum, Rakesh Saxena, Abhay Wagh. Performance Analysis of Battery Banks with PV-Wind Connected Hybrid Distributed Power System. International Journal of Engineering Trends and Technology (IJETT), 29(4) (2015) 177-182 . doi: 10.14445/22315381/IJETT-V29P233
[9] Biks Alebachew Taye. Design, Modeling, and Control of Standalone Photovoltaic System for Rural Electrification in Ethiopia using MATLAB. International Journal of Engineering Trends and Technology, 66(3) (2018): 184-190. doi: 10.14445/22315381/IJETT-V66P227
[10] N.Sivasankar, Dr.KR.Devabalaji. Comparative Analysis of Non- Isolated Three port converters for Solar and Energy Storage Integration. International Journal of Engineering Trends and Technology 68(7) (2020) 73-77. Doi: 10.14445/22315381/IJETT-V68I7P211S.
[11] Oh, E. Rolling based energy storage system operation strategies considering wind power forecast uncertainty. International Journal of Emerging Trends in Engineering Research. 7(11), (2019), , 708-714. doi: 10.30534/ijeter/2019/497112019
[12] N.N. Sadullaev, M.B. Bozorov, Sh.N. Nematov. Research of efficiency of functioning of system of electro supply of the enterprise by method multi-criteria analysis. Journal of Electrical and Electronic System, 2 (2018) 27–30.
[13] N.N. Sadullaev, A.B. Safarov, Sh.N. Nematov, R.A. Mamedov. Statistical Analysis of Wind Energy Potential in Uzbekistan`s Bukhara Region Using Weibull Distribution. Applied Solar Energy, 55 (2019) 126–132, doi:10.3103/S0003701X19020105.
[14] N. N. Sadullayev, A. B. Safarov, Sh. N. Nematov, R.A. Mamedov, and A. B. Abdujabarov. Opportunities and Prospects for the using Renewable Energy Sources in Bukhara Region. Applied Solar Energy, 56(4) (2020) 291–300. doi: 10.3103/S0003701X20040106
[15] Y.C. Lima, W.T. Chonga, F.B. Hsiaob. Performance Investigation and Optimization of a Vertical Axis Wind Turbine with the Omni-Direction-Guide-Vane. Procedia Engineering, 67 (2013) 59–69, doi:10.1016/j.proeng.2013.12.005.
[16] F. Jacek, Gieras, Rong-Jie Wang, Maarten J. Kamper. Axial flux permanent magnet brushless machines. Kluwer Academic Publishers.: Dordrecht, (2004) 189-211.
[17] Jinyi Li, Yang Cao, Guoqing Wu, Zifan Miao, Jiawei Qi. Aerodynamic stability of airfoils in a lift-type vertical axis wind turbine in the steady solver. Renewable Energy, 111 (2017) 676–687, doi:10.1016/j.renene.2017.04.057.
[18] A. Dilimulati, T. Stathopoulos, M. Paraschivoiu. Wind turbine designs for urban applications: A case study of shrouded diffuser casing for turbines. Journal of Wind Engineering & Industrial Aerodynamics. 175 (2018) 179–192, doi:10.1016/j.jweia.2018.01.003.
[19] E. Kurta, H. Gorb, U. Doner. Electromagnetic design of a new axial and radial flux generator with the rotor back-irons. International journal of hydrogen energy, 41 (2016) 7019–7026, doi:10.1016/j.ijhydene.2016.02.034.
[20] N.N. Sadullaev, A.B. Safarov, Sh.N. Nematov, R.A. Mamedov. Research on Facilities of Power Supply of Small Power Capability Consumers of Bukhara Region by using Wind and Solar Energy. International Journal of Innovative Technology and Exploring Engineering (IJITEE), vol. 8(9S2) (2019) pp. 229- 236. doi:10.35940/ijitee.I1047.0789S219.
[21] Patent US6740989 05/25/2004.
[22] Patent RU2390654C1 04.24.2009.

Keywords
Hybrid, wind power installation, solar panel, mechanical store of Energy, energy efficiency, reliability of electro supply, the low power consumer, an alternative energy source.