110kV High Voltage Cable XLPE Insulation Copper Wire Screen Power Cable Transmission Cable
| Insulation Material: | Xlpe | Jacket: | PE |
| Conductor Material: | Stranded Circular Or Segmental (Milliken) Compacted Copper Conductor | Nominal Voltage: | 38/66kV(72.5kV) |
| Core: | 1 Core | Application: | Underground |
| High Light: | 110kV XLPE insulation power cable,high voltage copper wire screen cable,XLPE transmission cable with warranty |
||
110kV High Voltage Cable XLPE Insulation Copper Wire Screen Power Cable Transmission Cable
APPLICATION
1. Urban Power Supply
- Replaces overhead lines to enhance reliability
- Saves space and improves city aesthetics.
2. Industrial Power
- Supports high-load facilities (steel plants, data centers).
- Connects renewable energy (wind/solar farms) to the grid.
CONSTRUCTION
- Conductor: Stranded circular or segmental (Milliken) compacted copper conductor
- Conductor shield:Semi-conductive shield
- Insulation: Cross-Linked Polyethylene(XLPE)
- Insulation shield: Semi-conductive shield
- Metal shielding layer:Corrugated Aluminum Sheath or Lead Sheath or Aluminum Laminated Tape
- Binder tape:Non-woven fabrics
- Metal Laminate Foil: Aluminum laminated tape
- Outer sheath: PE
STANDARD
IEC 60840 IEC 62067
CHARACTERISTIC
- Voltage Rating Uo/U: 64/110kV(123kV)
- Continuous Operation: +90°C Conductor Temp
- Emergency Overload:+105°C Conductor Temp (≤100 hrs/year, ≤500 hrs/lifetime)
- Short Circuit:+250°C Conductor Temp (for calculated duration, typically 1-5s)
- Installation ≥ 0°C
- Ambient Operation ≥ -40°C
PARAMETERS
|
Conductor |
Insulation |
Nominal Area of Copper Wires |
Outer Jacket |
||||||||||||
|
Nominal |
Max.DC |
Max.AC |
Nominal Thickness of Insulation |
Nominal |
Approx. |
Approx. |
|||||||||
|
Cond. |
XLPE |
Ins. |
|||||||||||||
|
mm² |
Ω/km |
Ω/km |
mm |
mm |
mm |
mm² |
mm |
mm |
kg/m |
||||||
|
300 R |
0.0601 |
0.0787 |
1.2 |
15 |
1 |
95 |
3.5 |
67.9 |
6.47 |
||||||
|
400 R |
0.047 |
0.0627 |
1.2 |
15 |
1 |
95 |
3.5 |
70.5 |
7.41 |
||||||
|
500 R |
0.0366 |
0.0502 |
1.2 |
15 |
1 |
95 |
4 |
74.9 |
8.79 |
||||||
|
630 R |
0.0283 |
0.0407 |
1.2 |
15 |
1 |
95 |
4 |
78.4 |
10.21 |
||||||
|
800 R |
0.0221 |
0.0338 |
1.2 |
15 |
1 |
95 |
4 |
82.4 |
12.17 |
||||||
|
1000 S |
0.0176 |
0.024 |
1.5 |
15 |
1.2 |
95 |
4 |
92.1 |
14.74 |
||||||
|
1200 S |
0.0151 |
0.0211 |
1.5 |
15 |
1.2 |
95 |
4.5 |
97.1 |
17 |
||||||
|
1400 S |
0.0129 |
0.0185 |
1.5 |
15 |
1.2 |
95 |
4.5 |
99.1 |
18.99 |
||||||
|
1600 S |
0.0113 |
0.0168 |
1.5 |
15 |
1.2 |
95 |
4.5 |
103.1 |
20.72 |
||||||
|
2000 S |
0.009 |
0.0143 |
1.5 |
15 |
1.2 |
95 |
4.5 |
108.1 |
24.42 |
||||||
|
2500 S |
0.0072 |
0.0125 |
1.5 |
15 |
1.2 |
95 |
4.5 |
116.1 |
29.99 |
||||||
OUR FACTORY
PACKAGE
APPLICATION
FAQ
Q. How does 110kV XLPE cable differ from traditional ones?
A. XLPE (cross-linked polyethylene) insulation provides higher thermal resistance and longer lifespan than oil-paper cables, reducing maintenance costs.
Q. What factors affect 110kV cable capacity?
A. Key factors include: ambient temperature, conductor material (e.g., aluminum vs. copper), and installation depth (for underground systems).
Q. Can 110kV cables be used in submarine environments?
A. Yes, with special waterproof armor and corrosion-resistant coatings, but costs increase due to engineering complexity.
Q. How to monitor faults in 110kV cable networks?
A. Techniques include: partial discharge (PD) sensors, distributed temperature sensing (DTS), and AI-based predictive analytics.
Q. What are the latest cooling technologies for high-voltage cables?
A. Innovations like liquid-filled cooling systems and phase-change materials help dissipate heat, enhancing load capacity by up to 30%.
Q. How long is the typical lifespan of a 110kV cable?
A. With proper maintenance, XLPE cables last 40–50 years, while older oil-paper types may degrade faster.
Q. Are superconducting cables feasible for 110kV applications?
A. Emerging high-temperature superconducting (HTS) cables show promise but remain costly; commercial adoption is still limited.
Q. What safety standards apply to 110kV cables?
A. Compliance with IEC 60287 (rating calculation) and IEEE 400 (installation guidelines) is critical for reliability.
Q. How to reduce energy loss in 110kV transmission?
A. Optimize conductor size, use low-loss dielectric materials, and implement dynamic line rating (DLR) systems.
110kV XLPE Insulated 630mm² Copper Cable with Welded Corrugated Aluminum Sheath
Designed for 110kV underground transmission, this XLPE insulated 630mm² copper cable features a welded corrugated aluminum sheath for 100% waterproof direct burial. IEC 60840 compliant, ideal for substations, city grid undergrounding and heavy industry. Third-party FAT supported.
110kV High Voltage Power Cable – Copper Conductor, XLPE Insulated, SWA Armoured, IEC 60840
110kV High Voltage Power Cable – Copper Conductor, XLPE Insulated, SWA Armoured, IEC 60840 Underground Transmission & Substation Feeder Solution Designed for critical 110kV transmission networks , this single-core or three-core copper conductor power cable delivers high-capacity power flow from ...
64/110kV Power Cable – 1×800mm² Copper Core XLPE Insulated Corrugated Welded Aluminium Sheathed High Voltage Underground Cable
64/110kV Power Cable – 1×800mm² Copper Core XLPE Insulated Corrugated Welded Aluminium Sheathed High Voltage Underground Cable Product Overview The 64/110kV Power Cable with 1×800mm² copper conductor, XLPE insulation, and corrugated welded aluminium sheath is a premium high voltage underground ...
110kV High Voltage Power Cable | XLPE Insulated Underground Transmission Cable IEC 60840
110kV High Voltage Power Cable | XLPE Insulated Underground Transmission Cable IEC 60840 1. Product Overview The 110kV high voltage power cable is designed for efficient transmission of electrical energy in underground and utility networks. With advanced XLPE insulation technology, it ensures ...
