Itu Konduktor ACCC (Inti Komposit Konduktor Aluminium) is an advanced technology in power transmission and distribution networks. Designed to enhance efficiency, reduce energy losses, and support higher loads compared to traditional conductors, ACCC has become a key solution for modernizing electrical infrastructure.
Composition of ACCC Conductor
Itu Konduktor ACCC consists of a central core made of carbon fiber and glass composite, surrounded by aluminum strands. This combination makes the conductor lighter, stronger, and more efficient than conventional conductors like ACSR (Baja konduktor aluminium diperkuat).
Advantages of ACCC Conductor
- Higher Transmission Capacity: ACCC conductors can carry 30%-40% more current than conventional conductors.
- Lower Energy Losses: Thanks to its high conductivity, energy losses are reduced by up to 25%.
- High-Temperature Resistance: Operates at higher temperatures without performance degradation.
- Low Thermal Expansion: The composite core minimizes elongation, reducing sagging risks.
- Longer Lifespan: Enhanced resistance to corrosion and mechanical wear.
- Compatibility with Existing Infrastructure: Can be installed on current transmission towers without significant modifications.
Technical Specifications of ACCC Conductor
ACCC Conductors are available in different configurations and sizes based on project requirements. Below are some typical technical specifications:
Parameter | Value |
---|---|
Core Material | Carbon fiber and glass composite |
Conductor Material | Annealed aluminum |
Operating Temperature Range | Up to 200°C |
Daya Dukung Saat Ini | 30%-40% higher than ACSR |
Energy Loss Reduction | Up to 25% |
Thermal Expansion | 50%-60% lower than ACSR |
Ketahanan Korosi | High |
Aplikasi Konduktor ACCC
ACCC Conductors is widely used in high- and medium-voltage power transmission and distribution networks. It is ideal for:
- Upgrading Transmission Lines: Increases capacity without building new towers.
- Expanding Urban and Rural Grids: Enhances efficiency and reduces voltage drops.
- Integrating Renewable Energy Sources: Supports transmission from wind and solar farms.
- Infrastructure Modernization Projects: Meets the growing energy demand efficiently.
Comparison Between ACCC and Other Conductors
Feature | ACCC | ACSR | ACSS |
Load Capacity | High | Medium | High |
Energy Losses | Low | High | Medium |
Temperature Resistance | High | Medium | Very High |
Thermal Expansion | Low | High | Low |
Structural Flexibility | High | Low | High |
ACCC Drake Conductor
Itu ACCC Drake Conductor is one of the most commonly used ACCC cable configurations, designed for high-performance applications. It offers higher ampacity, improved efficiency, and superior mechanical strength, making it a preferred choice for power utilities worldwide.
ACCC Drake Conductor Specifications:
Parameter | Value |
Ukuran Konduktor | 795 kcmil |
Core Type | Carbon and glass composite |
Terdampar | 26/7 aluminum strands |
Rated Strength | 32,500 lbf |
Maximum Operating Temperature | 200°C |
Manufacturers and Suppliers of ACCC Conductor
Several global manufacturers produce ACCC Conductors, including Kabel Dosis, CTC Global, Kabel LS & Sistem, and Prysmian Group. These suppliers offer customized solutions for various industrial and geographical requirements.
Conclusion
Itu Konduktor ACCC represents an efficient and sustainable solution for modern power transmission. Its ability to reduce energy losses, operate at higher temperatures, and improve efficiency makes it one of the best choices in today’s electrical market. Companies and suppliers are increasingly investing in this technology to ensure a more reliable and future-ready power grid.