“CALCULATION OF THE WASTE OF VOLTAGES FROM HIGH- VOLTAGE NETWORKS IN ANDMI BUILDINGS"
Keywords:
Keywords: HIGH VOLTAGE, RT(receiving power),GIL,electric power,energy resources,electricity production,transmormers.Abstract
The electric power industry of Uzbekistan will develop if the energy efficiency
of the use of energy resources increases. Electric energy is the only type of product that
does not use other resources to move it from places of production to places of
consumption. For this, part of the transmitted electricity itself is consumed, so its losses
are inevitable, the task is to determine their economically feasible level. Reducing
electricity losses in electrical networks to this level is one of the important areas of
energy conservation. This task is associated with reducing electricity losses in the
electrical networks of the energy system of Uzbekistan. The growth of energy losses in
electrical networks is determined by the action of quite objective laws in the
development of the entire energy sector as a whole. The main ones are: a tendency
towards concentration of electricity production at large power plants; continuous
growth in the loads of electrical networks associated with a natural increase in
consumer loads and the lagging of the growth rate of the network bandwidth from the
growth rate of electricity consumption and generating capacities.
References
REFERENCES:
CIGRE TB 351 Application of Long High Capacity Gas Insulated Lines, CIGRE,
Paris, France.
Current capacity evaluated at 758C conductor temperature, 258 C air temperature,
wind speed of 1.4 mi=h, and frequency of 60 Hz sources: transmission line
reference book 345kv and above 2nd ed., Electric Power Research Institute, Palo
Alto, California, 1987.
Tanizawa K , Minaguchi D, Honaga Y, Application of gas insulated transmission
line in Japan, CIGRE Session Paris, France, 08/1984.
Prabha kundur, Power system stability and control, Electric power research
institute.
M.O. Atajonov «Dinamik ob’yektlarning texnologik holatlarini tashxislashning
neyro-noqat’iy modellari va algoritmlari» // Monografiya. Farg‘ona.: «Poligraf
Super Servis» 2023. – 94 b.
М.О.Атажонов «Андижанский машиностроительный институт». (2023).
«Конструкция фототермоэлектрических преобразователей». IJARETM //
vol.2, Issue 12. Pp. 236-244. Zenodo. https://doi.org/10.5281/zenodo.10315959
М.О.Атажонов. “Повышение энергоэффективности фототермоэлектрической
батареи”. VI Международная конференция по Оптическим и
фотоэлектрическим явлениям в полупроводниковых микро - и
наноструктурах. 28-30 сентября 2023 года Фергана. Ст. 128-130.
M.O. Atajonov, S.J. Nimatov, A.I.Rakhmatullaev, A. B. Sadullaev. «Formalization of the dynamics of the functioning of petrochemical complexes based on the
theory of fuzzy sets and fuzzy logic» AIP Conference Proceedings 2552, 050014
(2023); Published Online: 05 January 2023. https://doi.org/10.1063/5.0112403
Atajonov M.O. Ashurova U.B. Algorithm for Adaptive Regulation of Parameters
of Fuzzy-Models to Diagnose Dynamic Object. Technical science and innovation,
Iss 8, Vol 2, 2021/2 peg. 234-240.
O.O.Zaripov, M.O.Atajonov, B.G‘.Zayniddinov «Reaktiv quvvatni
kompensatsiyalash samaradorligini oshirish usullari» // Monografiya. Farg‘ona.:
«Poligraf Super Servis» 2023. –108b
