Benefit
Prevention of damage and prolongation of life of major facilities
Improvement of renewable energy acceptability and energy efficiency in power grid
Maximum capacity & Minimum size in distribution voltage levels
Resilient response to various fields and rated power with modular design
Increase safety & efficiency with interconnection operation of electrical power system without fault cascading
Prevention of damage and prolongation of life of major facilities
Improvement of renewable energy acceptability and energy efficiency in power grid
Maximum capacity & Minimum size in distribution voltage levels
Resilient response to various fields and rated power with modular design
Increase safety & efficiency with interconnection operation of electrical power system without fault cascading
Features
1. High performance & reliability
- 100 times current-limiting performance of superconducting current-limiting module
- Securing operation reliability of the high-speed impedance unit
- Automatic recovery within a few minutes after operation, and can be used repeatedly
2. Flexibility
- Flexible applicapability to various ratings using modular design of units
- Securing ease of installation and space utilization by separating the superconducting unit and the high-speed impedance unit
3. Compactness
- Realization of system miniaturization and light weight by application of high-speed switch (FS) and current limiting resistance (CLR)
- Integrated cryocooling of a superconducting unit using subcooled LN2 for three-phase operation
4. User-friendly design
- Key parts can be maintained when the front door is opened
1. High performance & reliability
- 100 times current-limiting performance of superconducting current-limiting module
- Securing operation reliability of the high-speed impedance unit
- Automatic recovery within a few minutes after operation, and can be used repeatedly
2. Flexibility
- Flexible applicapability to various ratings using modular design of units
- Securing ease of installation and space utilization by separating the superconducting unit and the high-speed impedance unit
3. Compactness
- Realization of system miniaturization and light weight by application of high-speed switch (FS) and current limiting resistance (CLR)
- Integrated cryocooling of a superconducting unit using subcooled LN2 for three-phase operation
4. User-friendly design
- Key parts can be maintained when the front door is opened
Specification
| Ratings | Specification |
|---|---|
| Ratings | 22.9kV / 2,000A / 60Hz |
| Electrical Insulation | AC 60kV/min, LI 150kVBIL |
| Operating Current | 2kA |
| Impedance | 6Ω (Resistance) |
| Max. Limitation Time | 0.4 Sec |
| Limited Current | ~10kApeak(1st Peak) / ~2.2kArms(after 1st peak) |
| Size (m) | W 1.9 X D 3.3 X H 3.2 (Superconducting Unit) |
| W 2.1 X D 3.3 X H 3.2 (High Speed Impedance Unit) | |
| Installation Site | KEPCO's Seogochang S/S for power system interconnection |
| Ratings | Specification |
|---|---|
| Ratings | 22.9kV / 2,000A / 60Hz |
| Electrical Insulation | AC 60kV/min, LI 150kVBIL |
| Operating Current | 2kA |
| Impedance | 6Ω (Resistance) |
| Max. Limitation Time | 0.4 Sec |
| Limited Current | ~10kApeak(1st Peak) / ~2.2kArms(after 1st peak) |
| Size (m) | W 1.9 X D 3.3 X H 3.2 (Superconducting Unit) |
| W 2.1 X D 3.3 X H 3.2 (High Speed Impedance Unit) | |
| Installation Site | KEPCO's Seogochang S/S for power system interconnection |
System process
