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Oil-Immersed Transformers: Core Equipment of Power Systems & Technical Analysis
Introduction
Oil-immersed transformers serve as critical components in power transmission and distribution, performing voltage conversion, energy allocation, and system isolation. This article provides an in-depth analysis of oil-immersed transformer working principles, technical advantages .
1. Working Principle of Oil-Immersed Transformers
Oil-immersed transformers utilize mineral oil insulation and cooling systems for efficient energy conversion:
Electromagnetic induction: Primary and secondary windings couple via an iron core magnetic circuit to achieve voltage transformation.
Insulating oil functions:
Dielectric strength up to 30kV/mm (vs. air’s 3kV/mm)
Absorbs heat from windings, limiting temperature rise to ≤65K (IEC 60076 standard)
Typical structure:
Core (cold-rolled silicon steel, loss ≤0.9W/kg)
Windings (copper/aluminum conductors)
Conservator (with breather for moisture protection)
2. Technical Advantages of Oil-Immersed Transformers
Compared to dry-type transformers, oil-immersed transformers excel in:
| Feature | Oil-Immersed Transformer | Dry-Type Transformer |
|---|---|---|
| Capacity | Up to 1000MVA | Typically ≤20MVA |
| Cooling | Oil circulation, high overload | Air cooling, limited overload |
| Cost | ~$0.18/VA | ~$0.38/VA |
| Lifespan | 30+ years (with oil changes) | 20-25 years |
Key advantages:
Ideal for 110kV+ high-voltage grids
Failure rate <0.3 incidents/unit-year (CIGRE data)
Compatible with online DGA monitoring systems