Performance Analysis of Real-Scale 23 kV/60 MVA Class Tri-Axial HTS Power Cable for Real-Grid Application in Korea

Performance Analysis of Real-Scale 23 kV/60 MVA Class Tri-Axial HTS Power Cable for Real-Grid Application in Korea

Currently, various types of superconducting power cables are being developed worldwide, and research and development of a tri-axial high-temperature superconducting (HTS) power cable are underway. The tri-axial HTS power cable reduces the amount of HTS wire due to its multilayer structure, has high...

Full description

Bibliographic Details
Main Authors: Seok-Ju Lee, Seong Yeol Kang, Minwon Park, DuYean Won, Jaeun Yoo, Hyung Suk Yang
Format: Article
Language:English
Published: MDPI AG 2020-04-01
Series:Energies
Subjects:
high temperature superconducting (HTS) cable
tri-axial HTS cable
AC loss
Online Access:https://www.mdpi.com/1996-1073/13/8/2053
id doaj-995a6a1da9994c5e9653f8a485185be5
record_format Article
spelling doaj-995a6a1da9994c5e9653f8a485185be52020-11-25T02:54:35ZengMDPI AGEnergies1996-10732020-04-01132053205310.3390/en13082053Performance Analysis of Real-Scale 23 kV/60 MVA Class Tri-Axial HTS Power Cable for Real-Grid Application in KoreaSeok-Ju Lee0Seong Yeol Kang1Minwon Park2DuYean Won3Jaeun Yoo4Hyung Suk Yang5Mechatronics Research Institute, Changwon National University, Changwon 641-773, KoreaDepartment of Electrical Engineering, Changwon National University, Changwon 641-773, KoreaDepartment of Electrical Engineering, Changwon National University, Changwon 641-773, KoreaKEPCO Research Institute, Daejeon 34056, KoreaKEPCO Research Institute, Daejeon 34056, KoreaKEPCO Research Institute, Daejeon 34056, KoreaCurrently, various types of superconducting power cables are being developed worldwide, and research and development of a tri-axial high-temperature superconducting (HTS) power cable are underway. The tri-axial HTS power cable reduces the amount of HTS wire due to its multilayer structure, has high current characteristics, and has less loss than other superconducting cables. However, since the radii of each phase are different, magnetic coupling makes it difficult to measure power loss and analyze performance. This paper presents the results of the design and performance analysis of a tri-axial HTS power cable. A prototype tri-axial HTS power cable was designed with a rated power of 60 MVA, a rated voltage of 23 kV and a length of 6 m, and was tested by cooling to 77 K with liquid nitrogen. We analyzed the performance of the tri-axial HTS power cable in normal conditions through a finite element method (FEM) simulation and experiment. The alternating current (AC) loss of the tri-axial HTS power cable was calculated using a FEM program based on the Maxwell equation, and the result was used to confirm the AC loss of the tri-axial HTS power cable prototype measured by the electrical measurement method. In conclusion, in the current test of a tri-axial HTS cable designed as 23 kV/60 MVA, the DC critical current was over 6000 A, the AC loss was approximately 0.24 W/m, and the simulation and analysis design values were satisfied. The results of this study will be effectively applied to commercial tri-axial HTS power cable development to be installed in a real power system. This means that the actual tri-axial HTS cable has sufficient capacity for rated current operation in the system where it will be applied, and the actual measurement of the cable loss can be applied as an important factor in the design of the cooling capacity of the entire superconducting cable, which consists of several kilometers.https://www.mdpi.com/1996-1073/13/8/2053high temperature superconducting (HTS) cabletri-axial HTS cableAC loss
collection DOAJ
language English
format Article
sources DOAJ
author Seok-Ju Lee
Seong Yeol Kang
Minwon Park
DuYean Won
Jaeun Yoo
Hyung Suk Yang
spellingShingle Seok-Ju Lee
Seong Yeol Kang
Minwon Park
DuYean Won
Jaeun Yoo
Hyung Suk Yang
Performance Analysis of Real-Scale 23 kV/60 MVA Class Tri-Axial HTS Power Cable for Real-Grid Application in Korea
Energies
high temperature superconducting (HTS) cable
tri-axial HTS cable
AC loss
author_facet Seok-Ju Lee
Seong Yeol Kang
Minwon Park
DuYean Won
Jaeun Yoo
Hyung Suk Yang
author_sort Seok-Ju Lee
title Performance Analysis of Real-Scale 23 kV/60 MVA Class Tri-Axial HTS Power Cable for Real-Grid Application in Korea
title_short Performance Analysis of Real-Scale 23 kV/60 MVA Class Tri-Axial HTS Power Cable for Real-Grid Application in Korea
title_full Performance Analysis of Real-Scale 23 kV/60 MVA Class Tri-Axial HTS Power Cable for Real-Grid Application in Korea
title_fullStr Performance Analysis of Real-Scale 23 kV/60 MVA Class Tri-Axial HTS Power Cable for Real-Grid Application in Korea
title_full_unstemmed Performance Analysis of Real-Scale 23 kV/60 MVA Class Tri-Axial HTS Power Cable for Real-Grid Application in Korea
title_sort performance analysis of real-scale 23 kv/60 mva class tri-axial hts power cable for real-grid application in korea
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2020-04-01
description Currently, various types of superconducting power cables are being developed worldwide, and research and development of a tri-axial high-temperature superconducting (HTS) power cable are underway. The tri-axial HTS power cable reduces the amount of HTS wire due to its multilayer structure, has high current characteristics, and has less loss than other superconducting cables. However, since the radii of each phase are different, magnetic coupling makes it difficult to measure power loss and analyze performance. This paper presents the results of the design and performance analysis of a tri-axial HTS power cable. A prototype tri-axial HTS power cable was designed with a rated power of 60 MVA, a rated voltage of 23 kV and a length of 6 m, and was tested by cooling to 77 K with liquid nitrogen. We analyzed the performance of the tri-axial HTS power cable in normal conditions through a finite element method (FEM) simulation and experiment. The alternating current (AC) loss of the tri-axial HTS power cable was calculated using a FEM program based on the Maxwell equation, and the result was used to confirm the AC loss of the tri-axial HTS power cable prototype measured by the electrical measurement method. In conclusion, in the current test of a tri-axial HTS cable designed as 23 kV/60 MVA, the DC critical current was over 6000 A, the AC loss was approximately 0.24 W/m, and the simulation and analysis design values were satisfied. The results of this study will be effectively applied to commercial tri-axial HTS power cable development to be installed in a real power system. This means that the actual tri-axial HTS cable has sufficient capacity for rated current operation in the system where it will be applied, and the actual measurement of the cable loss can be applied as an important factor in the design of the cooling capacity of the entire superconducting cable, which consists of several kilometers.
topic high temperature superconducting (HTS) cable
tri-axial HTS cable
AC loss
url https://www.mdpi.com/1996-1073/13/8/2053
work_keys_str_mv AT seokjulee performanceanalysisofrealscale23kv60mvaclasstriaxialhtspowercableforrealgridapplicationinkorea
AT seongyeolkang performanceanalysisofrealscale23kv60mvaclasstriaxialhtspowercableforrealgridapplicationinkorea
AT minwonpark performanceanalysisofrealscale23kv60mvaclasstriaxialhtspowercableforrealgridapplicationinkorea
AT duyeanwon performanceanalysisofrealscale23kv60mvaclasstriaxialhtspowercableforrealgridapplicationinkorea
AT jaeunyoo performanceanalysisofrealscale23kv60mvaclasstriaxialhtspowercableforrealgridapplicationinkorea
AT hyungsukyang performanceanalysisofrealscale23kv60mvaclasstriaxialhtspowercableforrealgridapplicationinkorea
_version_ 1724720149622161408

Similar Items