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27.11.2022 | Original Paper

Thermal aging management of underground power cables in electricity distribution networks: a FEM-based Arrhenius analysis of the hot spot effect

verfasst von: Miodrag Stojanović, Jelena Klimenta, Marija Panić, Dardan Klimenta, Dragan Tasić, Miloš Milovanović, Bojan Perović

Erschienen in: Electrical Engineering | Ausgabe 2/2023

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Abstract

The effects of solar irradiation, wind and moisture on the thermal aging of underground power cables in electricity distribution networks cannot be included in the traditional Arrhenius model by means of any temperature rise or any derating factor. Such effects can be taken into account only if the Arrhenius model is coupled with a finite element method (FEM)-based steady-state thermal model and the Miner’s cumulative damage law. Accordingly, this study aims to analyze the effect of an actual hot spot on the thermal lifespan of a 110 kV underground cable line using a FEM-based Arrhenius model and considering solar irradiation, wind velocity, and soil moisture content. The 110 kV underground line consists of cables with cross-linked polyethylene (XLPE) insulation. The considered parameters are logically changed within the frames of the most unfavorable summer conditions and the most common winter conditions. The FEM-based Arrhenius model used was developed for the purpose of thermal aging management of power cables by Klimenta JLj, Panić MV, Stojanović MS et al. in early 2022. The existing calculated and experimental data on XLPE insulation are used for the purposes of verification and validation of the model, respectively. Finally, the hot spot effect is quantified and analyzed for all the considered parameters.

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CNSC (2011) Aging management for nuclear power plants, RD-334, Canadian Nuclear Safety Commission, Ottawa, Canada

IEC/IEEE (2016) IEC/IEEE International standard nuclear facilities—electrical equipment important to safety—qualification. Edition 1.0. IEC/IEEE 60780-323:2016

IEEE (2004) IEEE standard for qualifying Class 1E equipment for nuclear power generating stations. Revision of IEEE Std 323™-1983. IEEE Std 323^™-2003

Spång K, Ståhl G (2013) Qualification of electrical equipment in nuclear power plants—management of ageing. Report No. 2013:10. The Swedish Radiation Safety Authority, Stockholm, Sweden

Lofaro R et al (1996) Literature review of environmental qualification of safety-related electric cables: literature analysis and appendices, vol 2. Report No. NUREG/CR-6384-Vol.2 and BNL-NUREG-52480-Vol. 2. U.S. Nuclear Regulatory Commission (NRC) and Brookhaven National Laboratory, USA

Klimenta JLJ, Panić MV, Stojanović MS, Klimenta DO, Milovanović MJ, Perović BD (2022) Thermal aging management for electricity distribution networks: FEM-based qualification of underground power cables. Therm Sci 26(4B):3571–3586. https://thermalscience.vinca.rs/pdfs/papers-2022/TSCI220128050K.pdf

IEC (2014) IEC standard electric cables—calculation of the current rating—part 1–1: current rating equations (100% load factor) and calculation of losses–general. 2.1 edition. IEC 60287-1-1:2006+AMD1:2014 CSV

IEC (2003) IEC technical report electric cables—calculations for current ratings—finite element method (1st edn). IEC TR 62095:2003

Plota A, Masek A (2020) Lifetime prediction methods for degradable polymeric materials – A short review. Materials 13:4507CrossRef

10.

Feilat EA (2017) Chapter 11: Lifetime assessment of electrical insulation. In: Kandelousi MS (ed) Electric field. IntechOpen Ltd., London, pp 231–253

11.

Gorjian N, Ma L, Mittinty M, Yarlagadda P, Sun Y (2009) A review on degradation models in reliability analysis. In: Proceedings of the 4th world congress on engineering asset management (CEIDP), Athens, Greece, September 28–30, 2009, pp 369–384

12.

Zhou C, Yi H, Dong X (2017) Review of recent research towards power cable life cycle management. IET High Volt 2(3):179–187CrossRef

13.

Escobar LA, Meeker WQ (2006) A review of accelerated test models. Stat Sci 21(4):552–577MathSciNetCrossRefMATH

14.

Maxwell AS, Broughton WR, Dean G, Sims GD (2005) Review of accelerated ageing methods and lifetime prediction techniques for polymeric materials. NPL report DEPC MPR 016. National Physical Laboratory, Teddington, UK

15.

Buhari M (2016) Reliability assessment of ageing distribution cable for replacement in smart distribution systems. Ph.D. Thesis, University of Manchester, Manchester, UK

16.

Han YJ, Lee HM, Shin Y-J (2017) Thermal aging estimation with load cycle and thermal transients for XLPE-insulated underground cable. In: 2017 IEEE conference on electrical insulation and dielectric phenomenon (CEIDP), Fort Worth, TX, USA, October 22–25, 2017, pp 205–208

17.

Ge X, Given M, Stewart BG (2020) FEA simulation studies of accelerated aging of power cables in water tanks. In: 38th IEEE electrical insulation conference (EIC), virtual conference, June 22–July 3, 2020, pp 465–468

18.

Jia F, Zhang X, Liu D (2017) Study on insulation of middle joint of power supply line of high speed railway. In: Proceedings of the 2017 international conference on advances in materials, machinery, electrical engineering (AMMEE 2017), Tianjin, China, June 10–11, 2017, pp 163–168

19.

Klimenta D, Tasić D, Perović B, Klimenta J, Milovanović M, Lj A (2019) Eliminating the effect of hot spots on underground power cables using cool pavements. Electr Eng 101(4):1295–1309CrossRef

20.

Klimenta D, Tasić D, Jevtić M (2020) The Use of hydronic asphalt pavements as an alternative method of eliminating hot spots of underground power cables. Appl Therm Eng 168:114818CrossRef

21.

Gazdzinski RF et al (1996) Ageing management guideline for commercial nuclear power plants—electrical cable and terminations. Report SAND96-0344. Ogden Environmental and Energy Services Co., Inc., Penn., USA

22.

Heggås M (2019) Dynamic rating of power cables based upon transient temperature calculations. Master’s Thesis, Norwegian University of Science and Technology, Trondheim, Norway

23.

U.S.NRC, SEC Equipment Aging, Subject: M38773 Revision 6, United States Nuclear Regulatory Commission, https://www.nrc.gov/docs/ML1211/ML12116A323.pdf

24.

COMSOL (2012) Heat transfer module user’s guide. Version 4.3

25.

IEC (2017) IEC standard electric cables–calculation of the current rating–part 3–1: operating conditions–site reference conditions. 2.0 edition. IEC 60287-3-1:2017 RLV

26.

Klimenta D, Perovic B, Jevtic M, Radosavljevic J, Arsic N (2014) A thermal FEM-based procedure for the design of energy-efficient underground cable lines. Humanit Sci Univ J Tech 10:162–188

27.

Đukić D, Nenković-Riznić M (2022) The repercussion of the heating degree-days on climate changes in big-sized cities–case study of the City of Belgrade. Pol J Environ Stud 31(3):2589–2599CrossRef

28.

Klimenta D, Lekic J, Arsic S, Tasic D, Krstic N, Radosavljevic D (2021) A novel procedure for quick design of off-grid PV water pumping systems for irrigation. Elektr Elektrotech 27(2):64–77CrossRef

29.

Đuričin S, Bodroža D (2013) The impact of drought on yield position of the group of enterprises from agriculture sector. Econ Agric 60(1):25–38

30.

Montanari GC, Mazzanti G, Simoni L (2002) Progress in electrothermal life modeling of electrical insulation during the last decades. IEEE Trans Dielectr Electr Insul 9(5):730–745CrossRef

31.

Blivet C, Larché J-F, Israëli Y, Bussière P-O, Gardette J-L (2021) Thermal oxidation of cross-linked PE and EPR used as insulation materials: multi-scale correlation over a wide range of temperatures. Polym Testing 93:106913CrossRef

32.

Alghamdi AS, Desuqi RK (2020) A study of expected lifetime of XLPE insulation cables working at elevated temperatures by applying accelerated thermal ageing. Heliyon 6(1):e03120CrossRef

33.

Mustafa E, Afia RSA, Tamus ZÁ (2021) Dielectric loss and extended voltage response measurements for low-voltage power cables used in nuclear power plant: potential methods for aging detection due to thermal stress. Electr Eng 103:899–908CrossRef

Titel: Thermal aging management of underground power cables in electricity distribution networks: a FEM-based Arrhenius analysis of the hot spot effect
verfasst von: Miodrag Stojanović
Jelena Klimenta
Marija Panić
Dardan Klimenta
Dragan Tasić
Miloš Milovanović
Bojan Perović
Publikationsdatum: 27.11.2022
Verlag: Springer Berlin Heidelberg
Erschienen in: Electrical Engineering / Ausgabe 2/2023
Print ISSN: 0948-7921
Elektronische ISSN: 1432-0487
DOI: https://doi.org/10.1007/s00202-022-01689-z

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