SCB10 Dry-Type Transformer | CEEG Transformer

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CNAS

ISO

KEMA

TUV

CEEG SCB10 Dry-Type Transformer

The 10kV dry-type transformer is designed for power transformation and electrical isolation in 10kV distribution systems. It adopts an oil-free dry-type insulation structure, offering high safety and low maintenance requirements. With advantages such as fire resistance, environmental friendliness, and zero leakage risk, it is well-suited for industrial parks, public buildings, and commercial complexes where high reliability and strict environmental standards are required.

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CEEG SCB10 Dry-Type Transformer - Reliable Cast Resin Transformer with Class F Insulation

CEEG SCB10 Dry-Type Transformer - Reliable Cast Resin Transformer with Class F Insulation

CEEG SCB10 Dry-Type Transformer - Reliable Cast Resin Transformer with Class F Insulation

CEEG SCB10 Dry-Type Transformer - Reliable Cast Resin Transformer with Class F Insulation

CEEG SCB10 Dry-Type Transformer - Reliable Cast Resin Transformer with Class F Insulation

CEEG SCB10 Dry-Type Transformer - Reliable Cast Resin Transformer with Class F Insulation

Scope of application

Urban Public Buildings

Suitable for hospitals, schools, shopping malls, and subway stations with high personnel density, where fire safety and operational security are critical requirements.

Urban Public Buildings

Industrial Parks & Manufacturing Plants

Designed for continuous production power supply environments, emphasizing system stability, easy maintenance, and long-term reliable operation.

Industrial Parks & Manufacturing Plants

Data Centers

Ideal for centralized high-load applications with strict requirements for power supply reliability, supporting close-to-load deployment and low-maintenance operation.

Data Centers

Product Description

Product Description

1 High-Quality Core Material: Made of premium high-permeability silicon steel with full mitered joints and multi-step step-lap process, ensuring low no-load losses and improved energy efficiency.

CEEG SCB10 Dry-Type Transformer

2 Low Noise Design: Nano-coating self-leveling surface treatment effectively reduces operating noise for quieter performance.

CEEG SCB10 Dry-Type Transformer

3 High Safety & Reliability: Strong waterproof performance, excellent short-circuit withstand capability, high overload capacity, and stable electrical performance ensure safe and reliable operation.

CEEG SCB10 Dry-Type Transformer

4 Advanced Engineering Validation: Optimized through electric field, thermal field, and magnetic field simulation analysis, and among the earliest in China to pass KEMA E2, C2, and F1 type tests.

CEEG SCB10 Dry-Type Transformer

5 Dual-Mode Structural Design: Flexible dual-configuration solution to meet diverse customer requirements and application scenarios.

CEEG SCB10 Dry-Type Transformer

Product Features

Excellent Insulation Performance

Premium Resin Insulation: Utilizes epoxy resin insulation with exceptionally strong dielectric strength, creating a robust barrier against electrical breakdown.
Moisture & Thermal Resistance: Provides superior resistance to moisture ingress and high temperatures, significantly improving overall equipment reliability and long-term durability in harsh environments.

Safe & Reliable

Fire Resistance & Leak Prevention: Features an oil-free design with exceptional fire resistance, completely eliminating the risk of hazardous fluid leakage.
Surge & Fault Resilience: Robustly engineered to withstand severe short-circuit currents and heavy overvoltage conditions, ensuring stable, uninterrupted operation in harsh environments.

Eco-Friendly Design

Green & Non-Toxic Composition: Utilizes strictly environmentally friendly, non-toxic, and harmless materials that ensure zero hazard to human health and surrounding ecosystems.
Zero Oil Pollution Risk: Requires no oil cooling medium, completely eliminating the risk of fluid contamination while fully satisfying modern energy-saving and environmental protection requirements.

Outstanding Heat Dissipation

Flexible Cooling Options: Supports both natural air cooling and forced air cooling modes, allowing the system to adapt seamlessly to varying environmental and operational demands.
Peak Load Boost: Enables enhanced cooling performance under high-load conditions, safely increasing the transformer's capacity output while ensuring continuous, stable operation.

Robust and Durable Structure

Enhanced Short-Circuit Resilience: Features an optimized coil and core structure engineered with superior short-circuit withstand capability to safely absorb sudden electrical surges.
Continuous Heavy-Duty Operation: Built for rugged endurance, making it perfectly suited to handle long-term, continuous operating conditions without compromising system reliability.

Easy and Hassle-Free Maintenance

Simplified Daily Maintenance: Features an oil-free design that eliminates complex fluid testing and monitoring, significantly reducing daily inspection workload.
Minimized Downtime Risk: Enables faster, more straightforward fault localization, streamlining troubleshooting to keep operational downtime to an absolute minimum.

Main Parameters

Rated Voltage	10 kV
Capacity Range	50 kVA – 2500 kVA
Cooling Method	Natural air cooling (AN) / Forced air cooling (AF)
Insulation Class	Class F / Class H

Implementation Standard

Implementation Standard

GB/T 6451-2015 Technical Specifications for Power Transformers

GB 1094.1-2013 Power Transformers Part 1: General Requirements

IEC 60076 Power Transformers Standard

JB/T 10393-2002 Technical Conditions for Dry-Type Transformers

Technical Advantages

R&D Cloud Platform

R&D Cloud Platform

An integrated digital platform combining electromagnetic optimization design, parametric modeling, performance analysis, structural optimization, and automatic drawing generation. It enables transformer design resource sharing and efficient data management, including search, modification, and version control.

Simulation Analysis

Simulation Analysis

Comprehensive multi-physics simulation covering fluid flow, thermal field, electric field, leakage magnetic field, transient processes, and short-circuit forces. Each transformer series is optimized through thermal and flow analysis to accurately control winding temperature rise and hotspot distribution, ensuring reliable and stable performance.

Smart Operation & Maintenance Platform

Smart Operation & Maintenance Platform

By collecting key data such as temperature, current, voltage, vibration, and grid harmonics, the system enables real-time power quality analysis and fault alarms. It also supports mobile access for remote monitoring and intelligent O&M management.

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