Conclusion
Thus, achieving the energy efficiency of a solar
installation can be achieved in the following ways:
•
it is advisable to track the solar collectors behind
the Sun on the basis of the requirements to ensure accu-
racy of pointing to the Sun and the minimum consump-
tion of electric energy by electric drives;
•
in order to save energy, at the end of the cycle of
pointing the solar collector to the Sun, it is necessary to
turn off the drivers of the electric drive and organize the
positioning mode, which can significantly reduce the
consumption of electric energy.
•
An analysis of the developed designs of orienting
systems showed that for standard designs, the tracking
error is of the order of 0.1-0.6 degrees. considered valid.
However, it should be noted that the higher the tracking
accuracy, the higher the efficiency of the solar power plant.
•
increasing the reliability of the solar device is
achieved by increasing the rate of periodic heat removal
of solar radiation in batches, by applying water selection
over an automatically set temperature range, which pre-
vents the accumulation of scale in the inner surfaces of
the working channels of the solar thermal collector.
References:
1.
Shinyakov Yu.A. Extreme regulation of the power of solar panels in automatic spacecraft / Yu.A. Shinyakov //
Bulletin of the Samara State Aerospace University. Academician S.P. Queen. - 2007. - Issue. 1 (12). - S. 123–128.
2.
Solar
photo-electric
modules
of
the
TSM
series
[Electronic
resource].
-
Access
mode:
http://www.solarhome.ru/en/pv/tcm.htm, free (accessed: 09/22/2010).
3.
Shinyakov Yu.A. Improving the energy efficiency of autonomous photovoltaic power plants / Yu.A. Shinyakov,
Yu.A. Shurygin, O.E. Arkatova // Reports Volume. state unta control systems and radio electronics. - 2010. - No. 2
(22), part 2. - S. 102–107.
4.
Options for the construction of extreme step-by-step regulators of power of solar batteries / Yu.A. Shinyakov,
K.G. Gordeev, S.P. Cherdantsev, P.V. Obrusnik // Transactions of VNIIEM. Electromechanical devices of spacecraft
(Moscow). - 1997. - T. 97. - S. 83–92.
5.
Shinyakov Yu.A., Shurygin Yu.A., Arzhanov V.V., Osipov A., Teushchakov O.A., Arzhanov K.V. Improving the
energy efficiency of autonomous photoelectric power plants // Reports of Tomsk State University of Control Systems
and Radioelectronics. - 2011. - No. 2 (24). - Part 1. - S. 282–287.
6.
Tojiboev A.K., Khakimov M.F., Calculation of optical losses and the main characteristics of the receiver of a parabolic-
cylindrical installation with a stationary concentrator // Economy and society. 2020. No. 7 (74). S. 410-418.
ДЛЯ ЗАМЕТОК
ДЛЯ ЗАМЕТОК
ДЛЯ ЗАМЕТОК
Научный журнал
UNIVERSUM:
ТЕХНИЧЕСКИЕ НАУКИ
№ 10(91)
Октябрь 2021
Часть 5
Свидетельство о регистрации СМИ: ЭЛ № ФС 77 – 54434 от 17.06.2013
Издательство «МЦНО»
123098, г. Москва, улица Маршала Василевского, дом 5, корпус 1, к.
74
E-mail:
mail@7universum.com
www.7universum.com
Отпечатано в полном соответствии с качеством предоставленного
оригинал-макета в типографии «Allprint»
630004, г. Новосибирск, Вокзальная магистраль, 3
16+
Do'stlaringiz bilan baham: |