Wholesale High-Efficiency Power Distribution Transformer
Product Main Parameters
| Model Number | S13 |
|---|---|
| Phase | Three |
| Service Voltage | 6-35kV |
| Rated Capacity | 30-10000kVA |
| Efficiency Class | One |
Common Product Specifications
| Type | Rated Capacity (KVA) | Connection Symbol | Voltage Combination (KV) | No-load Losses (W) | Load Losses (W) |
|---|---|---|---|---|---|
| S13-M-1000 | 1000 | Yyn0 | 11/0.4 | 830 | 10300 |
| S13-M-2000 | 2000 | Dyn11 | 33/0.4 | 1510 | 17800 |
Product Manufacturing Process
The manufacturing process of power distribution transformers involves several key stages: core construction, winding fabrication, assembly, drying, testing, and painting. Firstly, silicon steel sheets are laminated to form the core, minimizing eddy current losses. The windings, typically made of copper or aluminum, are precision-crafted and assembled onto the core, ensuring accurate transformation ratios. The assembly undergoes drying to eliminate moisture, critical for insulation integrity. Comprehensive testing verifies operational safety and efficiency before a final protective coating is applied. This meticulous process, as referenced in authoritative papers, ensures high-quality, reliable transformers.
Product Application Scenarios
Power distribution transformers are fundamental in modern electrical grids, serving urban and rural electrification. They are primarily used to step down high transmission voltages to lower distribution levels suitable for residential and commercial establishments. In urban settings, pad-mounted transformers offer aesthetic and safety advantages, while pole-mounted units are prevalent in rural areas, providing cost-effective solutions. Underground transformers cater to areas where overhead lines pose practical challenges. Their critical role in efficient energy transfer, as highlighted in authoritative sources, underscores their significance in meeting escalating energy demands with safety and reliability.
Product After-Sales Service
- 24/7 customer support hotline
- On-site maintenance and inspection services
- Comprehensive warranty coverage
- Regular updates and software upgrades
- Consultation for optimal usage and energy efficiency
Product Transportation
Our wholesale power distribution transformers are transported using specialized vehicles equipped with shock-absorbing systems to prevent damage during transit. Packaging involves robust materials that secure the units against environmental factors. We coordinate with trusted logistics partners to ensure prompt delivery, complying with international shipping regulations. Clients receive real-time tracking updates, ensuring transparency and reliability throughout the transportation process.
Product Advantages
- High efficiency with minimal energy losses
- Advanced technology ensuring stable quality
- Customizable to meet specific voltage and capacity needs
- Durable construction suitable for varied environments
- Cost-effective with long-term reliability in diverse applications
Product FAQ
- What voltage levels are supported by your transformers?
Our power distribution transformers support a wide range of voltage levels from 6 kV to 35 kV, accommodating various regional standards and requirements for both residential and commercial applications. - How are your transformers cooled?
Our transformers utilize oil-based cooling systems, enhancing their efficiency and reducing operational heat. The design ensures optimal thermal management, prolonging the transformer's lifespan through effective heat dissipation. - Can these transformers be used in areas with extreme temperatures?
Yes, our transformers are designed to withstand a wide range of ambient temperatures, from -25°C to 40°C, making them suitable for diverse climatic conditions around the world.
Product Hot Topics
- The Impact of Advanced Materials in Transformer Efficiency
With ongoing research in the field of materials science, transformers are increasingly benefiting from the use of advanced materials that enhance their efficiency. The development of high-grade silicon steel and improved insulation materials has notably reduced no-load and load losses. These material innovations not only improve performance but also align with global sustainability goals by minimizing energy wastage. - Adapting Transformers for Renewable Energy Integration
As the energy landscape shifts towards renewable sources, transformers must adapt to new challenges. Integrating with renewable systems requires enhanced flexibility and resilience to handle dynamic load variations. Modern transformers are being designed to efficiently manage the variable energy inputs from solar and wind installations, playing a pivotal role in the transition to a sustainable energy future.
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