DETERMINATION OF ACTIVE POWER LOSSES COMPONENTS IN LONG-DISTANCE AC POWER TRANSMISSION
No. 4 (2022), Electric Power Systems and Installations
No. 4 (2022)
Electric Power Systems and Installations

DETERMINATION OF ACTIVE POWER LOSSES COMPONENTS IN LONG-DISTANCE AC POWER TRANSMISSION

Published 2022-07-05
https://doi.org/10.15407/techned2022.04.054
T.L. Katsadze
National Technical University of Ukraine Igor Sikorsky Kyiv Polytechnic Institute, pr. Peremohy, 37, Kyiv, 03056, Ukraine
https://orcid.org/0000-0002-8365-0046
V. V. Chizhevskyi
National Technical University of Ukraine Igor Sikorsky Kyiv Polytechnic Institute, pr. Peremohy, 37, Kyiv, 03056, Ukraine
https://orcid.org/0000-0002-1224-1798
N.V. Buslova
National Technical University of Ukraine Igor Sikorsky Kyiv Polytechnic Institute, pr. Peremohy, 37, Kyiv, 03056, Ukraine
https://orcid.org/0000-0002-1333-9973
V.V. Cherkashina
National Technical University "Kharkiv Polytechnic Institute", st. Kirpicheva, 2, Kharkov, 61002, Ukraine
https://orcid.org/0000-0002-5639-9722
ARTICLE_9_PDF (Українська)

Keywords

Long-distance power transmission
corona power losses
load power losses
thermal balance дальня електропередача
втрати потужності на корону
навантажувальні втрати потужності
тепловий баланс проводу

How to Cite

[1]
Katsadze, T. et al. 2022. DETERMINATION OF ACTIVE POWER LOSSES COMPONENTS IN LONG-DISTANCE AC POWER TRANSMISSION. Tekhnichna Elektrodynamika. 2022, 4 (Jul. 2022), 054. DOI:https://doi.org/10.15407/techned2022.04.054.
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Abstract

The components of active power losses in long-distance AC power transmission are investigated. It is shown that in the modes of low and medium loads the main share of losses are corona losses. The imperfection of the current method of determining the corona power losses, which are climatic in nature, determines the method of separating these losses from the total after calculating the load power losses. A four-component formula for determining the load losses of active power is obtained. It is shown that to clarify the calculation model it is necessary to take into account the actual temperature of the wire, taking into account changes in weather conditions along the route of the line. The results of calculation of components of active power losses in the 750 kV overhead transmission line "Zakhidnoukrainska-Vinnytska" during the day of September 13, 2021 are given. References 9, figures 4, tables 3.

https://doi.org/10.15407/techned2022.04.054
ARTICLE_9_PDF (Українська)

References

SOU-N EE 40.1-37471933-82:2013 Methodical recommendations for determining the technological losses of electricity in transformers and power lines, 2013. (Ukr)

IEEE Std 539-1990 Standard Definitions of Terms Relating to Corona and Field Effects of Overhead Power Lines, 1991.

IEEE, Guide for Conducting Corona Tests on Hardware for Overhead Transmission Lines and Substations, 2017.

RD 34.20.172 Guide for Calculating Corona Loss and Corona Interference in the Selection of 330-750 kV AC and 300-1500 kV DC Overhead Transmission Lines. Moskva, 2009. 71 p. (Rus)

Tamazov A.I., Corona losses in high voltage overhead power lines, Moskva: Sputnik, 2016. 318 p. (Rus)

Suleymanov V.M., Katsadze T.L. Electrical Networks and Systems. Kyiv: Natsionalnyi tekhnichnyi universytet Ukrainy Kievskii politekhnichnyi instytut, 2008. 456p. (Ukr)

CIGRE, Alternating Current (AC) Resistance of Helically Stranded Conductors, 2008.

CIGRE, Guide for Thermal Raiting Calculation of Overhead Lines, 2014

IEEE, Standard for Calculating the Current-Temperature Relationship of Bare Overhead Conductors, 2014.

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Copyright (c) 2022 Tekhnichna Elektrodynamika

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