The article discusses the basics of vortex formation for practical use in vortex wind power plants (VWPP). The analysis of existing structures of VWPP with limited tower-type vortex systems, solar-wind vortex power plant (SWVPP) is carried out with the use of horizontal-axial and vertical-axial propeller wind turbines. A simpler and energetically efficient VWPP is proposed using an openwork cylindrical vortex tube (OCVT) permeable to atmospheric air, an air solar collector (ASC) and a combined H-Darrier-Savonius rotor (CRDS) with much greater efficiency. The proposed vortex plants of small and medium power can be used for autonomous power supply of facilities. Their use will be able to significantly save fuel and energy resources in autonomous power supply systems practically without harming the environment.

1.
V. A.
Serebryakov
,
S. S.
Dorgiev
and
E. G.
Bazarova
,
Surrent status, problems and prospects of wind power development, Scientific and Information Publishing Center and editorial office of the journal
“Actual problems of the humanities and natural sciences”
,
95
102
(
2016
).
2.
A. I.
Tschevenkov
,
A. B.
Loskutov
and
E. A.
Mikhailichenko
,
The analysis of the use and development of wind turbines
,
Industrial energy
,
5
,
57
63
(
2012
).
3.
G. V.
Deryugina
,
A. G.
Vaskov
and
R. V.
Pugachev
,
The analysis of technical parameters of modern wind energy equipment
,
Industrial energy
,
5
,
55
60
(
2015
).
4.
V. R.
Kiushkin
and
A. R.
Sharipova
,
Trends in the decentralization of energy and ways to improve small-scale energy
,
Industrial energy
,
5
,
2
8
(
2014
).
5.
I. E.
Baimirov
,
Combined autonomous renewable energy systems
(
Evero LLP
,
Almaty
,
2011
), p.
202
.
6.
N. D.
Shishkin
,
The efficient use of renewable energy sources for autonomous heat supply of various facilities
(
Publishing house of AGTU
,
Astrakhan
,
2012
), p.
208
.
7.
R. A.
Serebryakov
and
A. B.
Kalinichenko
,
The vortex wind energy
, URL: http://www.sovstroymat.ru/2001_11_14.php
8.
R. A.
Serebryakov
and
V. V.
Biryuk
,
Vortex wind power plant, International Scientific Journal
“Alternative Energy and Ecology”
,
07
,
129
,
27
30
(
2013
).
9.
V. V.
Biryuk
,
S. B.
Goryainov
and
D. A.
Uglanov
,
Vortex power engineering
,
Collection of scientific articles, Modern science
,
2
,
7
,
220
225
(
2011
).
10.
N. K.
Nadirov
and
V. M.
Nizovkin
,
Concentration of solar-wind energy of the atmosphere and the creation of a Tornado-type power plant
,
Oil and Gas
,
1
,
85
,
107
119
(
2015
).
11.
N. D.
Shishkin
,
R. A.
Ilyin
and
D. I.
Atdaev
,
The application of environmentally efficient vertical-axial wind power plants for nature reserves and national parks of the South of Russia
,
Ecology and industry of Russia
,
23
,
11
,
43
49
(
2019
).
12.
N. D.
Shishkin
and
A. D.
Pakhalev
,
Development of the design of a combined solar-wind installation, Integration of science, society, production and industry: problems and prospects: collection of articles following the results of the International Scientific and Practical Conference (Publisher Limited Liability Company “International Research Agency
”,
Sterlitamak
,
2021
), pp.
174
180
.
13.
N. D.
Shishkin
and
R. A.
Ilyin
,
The energy efficiency research of combined H-Darier-Savonius rotors for autonomous power supply of objects on land and at sea
,
Journal of Physics: Conference Series 15th International Scientific and Technical Conference (PESPC), Saratov
,
1652
,
2028
(6-9 October
2020
).
14.
V. A.
Butuzov
,
Aerial solar installations
,
Heat supply news
,
5
,
29
31
(
2014
).
15.
N. D.
Shishkin
and
R. A.
Ilyin
,
The analysis of aerodynamic parameters and energy efficiency of vertical axial wind turbines
,
Bulletin of ASTU
,
2
,
76
84
(
2018
).
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