SCB14 Dry-Type Transformer | CEEG Transformer

Certification

CNAS

ISO

KEMA

TUV

CEEG SCB14 Dry-Type Transformer

Adopting resin-cast insulation and an oil-free structure, the transformer is well-suited for indoor installations and areas with high personnel density. It emphasizes fire safety, environmental protection with zero leakage risk, and low maintenance requirements. Optional natural air cooling or forced air cooling solutions are available to meet different load conditions and continuous operation requirements. The SCB14 series dry-type transformer is an enhanced high-efficiency model with improved loss performance and better temperature rise margin, making it suitable for high-load-rate operation and high-temperature environments.

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CEEG Transformer - SCB14 Cast Resin Dry-Type Transformer for Data Centers and High-End Industrial Grids

CEEG Transformer - SCB14 Cast Resin Dry-Type Transformer for Data Centers and High-End Industrial Grids

CEEG Transformer - SCB14 Cast Resin Dry-Type Transformer for Data Centers and High-End Industrial Grids

CEEG Transformer - SCB14 Cast Resin Dry-Type Transformer for Data Centers and High-End Industrial Grids

CEEG Transformer - SCB14 Cast Resin Dry-Type Transformer for Data Centers and High-End Industrial Grids

CEEG Transformer - SCB14 Cast Resin Dry-Type Transformer for Data Centers and High-End Industrial Grids

Scope of application

High-Temperature & Limited Ventilation Environments

Suitable for high-temperature regions or indoor substations with limited ventilation, with a strong focus on enhanced temperature rise margin and thermal stability.

High-Temperature & Limited Ventilation Environments

Industries with Fluctuating Loads

Ideal for industrial users with highly variable and impact-heavy loads, emphasizing operational redundancy and system stability under dynamic working conditions.

Industries with Fluctuating Loads

High-Requirement Industrial Parks

Designed for industrial park projects requiring both cost efficiency and high reliability, delivering strong long-term overall economic benefits.

High-Requirement Industrial Parks

Product Description

Product Description

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

CEEG SCB14 Dry-Type Transformer

2 Low Noise Design: Nano-coating self-leveling surface treatment effectively reduces operational noise, ensuring quieter performance.

CEEG SCB14 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 under demanding conditions.

CEEG SCB14 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 SCB14 Dry-Type Transformer

Product Features

Insulation Material

Premium Resin Insulation: Features epoxy resin integral casting for the transformer windings, providing exceptional insulation performance and advanced moisture resistance.
High-Temperature Endurance: Engineered to reliably withstand severe thermal stress, ensuring long-term stable operation under high-temperature conditions.

Safe & Reliable

Superior Fire Resistance: Inherently safe design offers excellent fire resistance, entirely eliminating fire hazards in sensitive environments.
Eco-Friendly & Leak-Free: The oil-free engineering completely removes the risk of oil leakage and associated environmental pollution.

Eco-Friendly Design

Eco-Friendly & Non-Toxic: Utilizes premium epoxy resin insulation that is completely environmentally friendly, non-toxic, and harmless to ecosystems.
Zero Oil Pollution Risk: Requires no oil cooling medium, entirely eliminating the risk of hazardous oil spills while perfectly meeting strict environmental protection and energy-saving requirements.

Excellent Heat Dissipation

Boosted Capacity Output: Allows for the seamless application of forced air cooling during heavy load periods, safely increasing the transformer's overall capacity output.
Stable High-Load Performance: Effectively manages thermal dissipation during peak demand, ensuring continuous, stable performance when the system is under maximum stress.

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

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.

Main Parameters

Rated Voltage	6 kV, 10 kV, 35 kV and other standard voltage levels
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

IEC 60076 Power Transformers Standard

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

ISO 9001 Quality Management System Certification

GB/T 10228-2015 Technical Parameters and Requirements for Dry-Type Power 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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