Difference Between Dry And Oil Type Transformer

　　Dry-type transformers and oil-immersed transformers differ significantly in structure, performance, and application scenarios; the specific differences are as follows:In order to open the market, dry type transformer Constantly improve the ability of business development and create an extraordinary brand image for it. https://www.jslhtf.com/

　　difference between dry and oil type transformer

　　Structural Comparison

　　Item

　　Dry-type Transformer

　　Oil-immersed Transformer

　　Insulation Materials

　　Solid insulation materials such as air, epoxy resin casting, and vacuum pressure impregnation (VPI)

　　Transformer oil (mineral oil or synthetic ester oil, which serves both insulation and cooling functions)

　　Cooling Method

　　Natural air cooling (AN) or forced air cooling (AF)

　　Oil circulation heat dissipation (e.g., natural oil cooling ONAN, forced oil circulation air cooling OFAF)

　　Windings

　　Copper/aluminum windings with outer layers wrapped in epoxy resin or Nomex paper, featuring high protection levels

　　Copper/aluminum windings directly immersed in insulating oil

　　Enclosure & Accessories

　　Typically IP20 protection level; optional dustproof and waterproof enclosures (e.g., IP54)

　　Sealed oil tank, equipped with accessories such as oil conservators (oil pillows), pressure relief valves, and oil level gauges

　　Differences in Working Principles

　　Common principle: Both are based on electromagnetic induction, achieving voltage transformation through the turn ratio of windings.

　　Core differences:

　　Heat dissipation: Dry-type transformers rely on air convection or forced air cooling; oil-immersed transformers transfer heat to radiators/coolers via oil circulation.

　　Insulation: Dry-type transformers depend on solid material insulation; oil-immersed transformers utilize the high insulation and heat capacity of liquid oil.

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　　Comparison of Performance Characteristics

　　Characteristic

　　Dry-type Transformer

　　Oil-immersed Transformer

　　Safety

　　Oil-free, no fire or leakage risks; suitable for places with high fire protection requirements

　　Oil is flammable, requiring additional fire prevention measures; risk of oil leakage pollution exists

　　Heat Dissipation Capacity

　　Poor; capacity usually ＋ 2500kVA

　　Excellent; capacity can reach hundreds of MVA, suitable for high-load scenarios

　　Environmental Friendliness

　　No hidden danger of oil leakage; more environmentally friendly

　　Requires waste oil disposal; risk of leakage pollution

　　Volume & Weight

　　Smaller volume and lighter weight (no need for oil tanks or oil circulation devices)

　　Larger volume and heavier weight (including oil tanks, radiators, etc.)

　　Noise Level

　　Lower (no noise from oil circulation equipment)

　　Higher (noise generated by operating oil pumps and fans)

　　Maintenance Cost

　　Maintenance-free or low maintenance (no need for oil replacement or oil quality inspection)

　　Requires regular oil quality and level inspections; complex maintenance

　　Application Scenarios

　　Dry-type Transformers

　　Oil-immersed Transformers

　　Indoor scenarios: high-rise buildings, subways, hospitals, data centers (high fire protection requirements)

　　Large-capacity scenarios: main transformers in substations, industrial parks (e.g., steel, chemical industries)

　　Special environments: humid, dusty environments (adaptable with IP54 protection)

　　Outdoor applications: power grid transmission/distribution lines, power plant step-up stations

　　Distributed energy: wind farms, photovoltaic power stations (medium and low-voltage distribution sides)

　　High-temperature environments: scenarios requiring long-term high-load operation (oil has high heat dissipation efficiency)

　　types of distribution transformer

　　Summary of Advantages and Disadvantages

　　Type

　　Advantages

　　Disadvantages

　　Dry-type Transformer

　　Safe and environmentally friendly (oil-free), maintenance-free, flexible installation, low noise

　　Limited capacity, high cost, poor heat dissipation, shorter service life

　　Oil-immersed Transformer

　　Large capacity, low cost, good heat dissipation, long service life

　　Fire risk exists, complex maintenance, large volume, poor environmental friendliness (oil leakage/waste oil)

　　Selection Suggestions

　　Choose dry-type transformers for scenarios with high fire protection requirements (e.g., urban centers, hospitals), limited space, or high environmental sensitivity.

　　Choose oil-immersed transformers for scenarios with large capacity requirements (e.g., industrial zones), outdoor installation, or cost sensitivity (e.g., rural power grids).