Startseite Influence of Series Compensation Degrees on Secondary Arc Current Characteristics under the Different Series Compensation Mode
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Influence of Series Compensation Degrees on Secondary Arc Current Characteristics under the Different Series Compensation Mode

  • Yadi XIE ORCID logo , Baina HE EMAIL logo , Lemiao WANG , Renzhuo JIANG , Yazhe MAO und Yuyang ZHOU
Veröffentlicht/Copyright: 12. Februar 2020
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International Journal of Emerging Electric Power Systems
Aus der Zeitschrift International Journal of Emerging Electric Power Systems Band 21 Heft 1

Abstract

The high compensation degree series compensation has a broad development prospects in long distance and large-capacity UHV transmission lines. But it is generating secondary arc current contains low frequency components with high amplitude when the single-phase grounding fault occurs in the series compensated transmission line, which is not conducive to rapid arc extinguishing. To solve this problem, this paper based on the mechanism of generating secondary arc by series compensation transmission lines, and using ATP – EMTP electromagnetic transient program to establish the simulation model of UHV series compensation device. And the suppression effects of small resistance short connection fault series compensation and linkage bypass series compensation measures on secondary arc current and recovery voltage under different series compensation layout mode are studied respectively. The results show that the attenuation speed of the secondary arc current is related to the series compensation arrangement modes and the time when the series compensation device is short connected or bypassed. Series compensation device short connected or bypassed before circuit breaker tripping which can accelerate the arc extinction speed, and the suppression effect is better when the series compensated double platform segmentation layout is distributed on both sides of the line. The results can be used as a reference for the engineering design of UHV with large capacity and long distance and high compensation series compensation transmission lines.

Keywords: high compensation degree series compensation device; series compensation arrangement modes; secondary arc current; recovery voltage; short connected resistance; linkage bypass

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Received: 2019-05-13
Revised: 2019-12-30
Accepted: 2020-01-17
Published Online: 2020-02-12

© 2020 Walter de Gruyter GmbH, Berlin/Boston

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  4. Optimal Sizing and Placement of Capacitor Banks and Distributed Generation in Distribution Systems Using Spring Search Algorithm
  5. Grid Cyber-Physical System Risk Management Model Based on Cooperative Game Theory
  6. Influence of Series Compensation Degrees on Secondary Arc Current Characteristics under the Different Series Compensation Mode
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https://doi.org/10.1515/ijeeps-2019-0104
Schlagwörter für diesen Artikel
high compensation degree series compensation device; series compensation arrangement modes; secondary arc current; recovery voltage; short connected resistance; linkage bypass

Artikel in diesem Heft

  1. Review
  2. Wireless Power Transfer Topologies used for Static and Dynamic Charging of EV Battery: A Review
  3. Research Articles
  4. Optimal Sizing and Placement of Capacitor Banks and Distributed Generation in Distribution Systems Using Spring Search Algorithm
  5. Grid Cyber-Physical System Risk Management Model Based on Cooperative Game Theory
  6. Influence of Series Compensation Degrees on Secondary Arc Current Characteristics under the Different Series Compensation Mode
  7. Protection Coordination of Radial Distribution Networks Connected with Distributed Generation Considering Auto-reclosing Schemes by Resistive Superconducting Fault Current Limiters
  8. Efficient Energy Delivery System of the CHP-PV Based Microgrids with the Economic Feasibility Study
  9. Electric Vehicle Traffic Pattern Analysis and Prediction in Aggregation Regions/Parking Lot Zones to Support V2G Operation in Smart Grid: A Cyber-Physical System Entity
  10. The Effect of Temperature Change on the Output Characteristics of a Solar Power Plant under Partial Shading Conditions
  11. A Coordinated Voltage Control Scheme of Distribution Networks with Distributed Generation Based on On-Load Tap Changers and Shunt Capacitors by Particle Swarm Optimization
  12. Design of Load Frequency Control for a Microgrid Using D-partition Method
  13. Improved Insulation Durability to Improve Transformer Aging
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