Jiangsu Huachen Transformer Co.,Ltd.
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Views: 0 Author: Site Editor Publish Time: 2025-09-26 Origin: Site
The Oil-immersed Transformer is a critical component in global power systems, providing reliable voltage transformation for transmission, distribution, and industrial applications. Its performance directly affects grid stability and energy efficiency. However, like all heavy-duty electrical equipment, oil-immersed transformers are not immune to operational issues. Problems such as overheating, oil leakage, insulation deterioration, and short circuits can compromise performance and, in severe cases, lead to catastrophic failures.
This article explores the most common transformer faults, preventive measures, and emergency responses, followed by an overview of advanced diagnostic technologies that enhance operational reliability. For organizations seeking reliable products and technical expertise, Jiangsu Huachen Transformer Co., Ltd. offers high-quality oil-immersed transformer solutions backed by years of engineering experience.
Excessive oil temperature is one of the most frequent issues in oil-immersed transformers. Heat is generated from copper losses in windings and iron losses in the core. If the cooling system cannot adequately dissipate this heat, several problems arise:
High operating temperatures in an Oil-immersed Transformer accelerate insulation aging, reducing the dielectric strength of insulation paper and transformer oil. This degradation shortens service life and increases the likelihood of electrical failures if not properly managed.
Overheating may lead to oil decomposition within the Oil-immersed Transformer, producing flammable gases. These gases are critical indicators of internal stress or faults, signaling potential risks that require timely inspection and preventive maintenance.
Elevated temperatures in an Oil-immersed Transformer increase electrical losses, reducing overall operational efficiency. Poor heat dissipation impacts performance, leading to higher energy consumption and potential instability in power supply if left unaddressed.
Causes of poor heat dissipation include blocked radiator fins, malfunctioning fans or pumps, and excessive load beyond rated capacity.
Regular inspection of cooling devices (fans, radiators, oil pumps).
Load monitoring and overload protection systems.
Using high-quality transformer oil with good thermal stability.
In case of emergency overheating, operators should reduce load immediately and switch to backup systems while investigating the root cause.
Oil leakage is another critical fault, often resulting from aging gaskets, mechanical vibration, or welding defects. Oil serves both as an insulator and coolant, and any reduction in its volume compromises safety.
Oil leakage in an Oil-immersed Transformer can significantly lower insulation levels due to reduced oil coverage, increasing the risk of electrical breakdown. Spilled oil also raises fire hazards and creates environmental contamination, posing safety risks to personnel and surrounding areas. Timely detection is critical.
To prevent oil leakage and seal aging, high-quality sealing materials resistant to temperature fluctuations and aging should be used. Regular inspection of flanges, valves, and welds is essential to detect early signs of leakage, and any defective components must be promptly repaired or replaced to ensure transformer reliability.
Emergency handling: If oil leakage is detected, the transformer should be de-energized and oil replenished after the leak is repaired. Continuous operation under leaking conditions is unsafe and must be avoided.
Transformer oil quality is vital for insulation and cooling. Over time, exposure to high temperatures, moisture, and oxygen leads to oil degradation. This results in increased acidity, sludge formation, and lower dielectric strength.
Degraded oil in an Oil-immersed Transformer reduces breakdown voltage, increasing the likelihood of electrical faults. Sludge deposits can block cooling channels, worsening thermal conditions, while acidic byproducts accelerate corrosion of metallic components, compromising transformer reliability and longevity.
Preventive measures include regular oil sampling and laboratory testing to monitor dielectric strength, water content, acidity, and interfacial tension. Oil purification systems can remove moisture, dissolved gases, and particles, and scheduled oil replacement should be performed when degradation reaches critical levels to maintain optimal performance.
By maintaining oil quality, the service life of the transformer can be significantly extended, and costly failures prevented.
Windings are at the heart of the transformer, and short circuits or winding faults can lead to severe damage. Causes include:
External short circuits: Sudden faults in the grid can induce mechanical stress on windings.
Internal insulation failure: Aging insulation may break down under electrical stress.
Thermal stress: Overloading causes hot spots, leading to winding deformation or melting.
Permanent damage requiring costly rewinding or replacement.
Potential transformer fire or explosion in extreme cases.
Robust design with high mechanical strength windings.
Protective relays and circuit breakers to isolate faults quickly.
Routine diagnostic tests, such as winding resistance and insulation resistance measurement.
In case of winding faults, the transformer must be disconnected immediately and tested thoroughly before re-energization.
Partial discharge (PD) is a localized electrical discharge that occurs when insulation is stressed beyond its capacity but has not yet completely failed. PD often precedes catastrophic breakdowns.
Voids or bubbles in insulation.
Sharp edges in winding conductors.
Contaminated or aged insulating oil.
Gradual erosion of insulation leading to complete breakdown.
Gas formation detected in dissolved gas analysis (DGA).
Risk of sudden and severe failure if unaddressed.
Strict quality control in transformer manufacturing to minimize defects.
Online PD monitoring to detect incipient insulation issues.
Regular oil filtration and purification to remove contaminants.
Addressing PD at an early stage significantly reduces the likelihood of sudden breakdown.
Maintaining oil-immersed transformers requires both preventive strategies and emergency protocols:
Regular oil testing and purification.
Visual inspection for leaks, rust, or unusual noises.
Temperature and load monitoring.
Scheduled electrical testing (insulation resistance, transformer turns ratio, sweep frequency response).
Immediate isolation of the transformer in case of overheating, severe leakage, or short circuits.
Activation of backup systems to ensure continuous power supply.
Rapid cooling measures, such as forced ventilation or reducing load.
Professional assessment before restarting the unit.
By combining preventive maintenance with emergency readiness, operators can minimize downtime and protect valuable assets.
The adoption of modern diagnostic tools has significantly improved transformer reliability:
Dissolved Gas Analysis (DGA) – Identifies decomposition gases in oil, providing insight into overheating, arcing, or partial discharge.
Thermal Imaging – Detects hotspots in real-time, allowing for predictive maintenance.
Online Monitoring Systems – Sensors track parameters like oil temperature, moisture, and load continuously.
Acoustic Emission Techniques – Capture signals from partial discharges, enabling precise fault localization.
Artificial Intelligence and IoT Integration – Advanced analytics predict fault development and optimize maintenance scheduling.
These technologies help utilities and industries move from reactive to predictive maintenance, reducing unexpected failures and extending transformer life.
The Oil-immersed Transformer is an indispensable element in modern power systems, but it faces challenges such as overheating, oil leakage, insulation degradation, and winding failures. Proactive maintenance, advanced monitoring technologies, and proper emergency handling are essential to ensure safe and efficient operation.
For organizations seeking robust transformer solutions, Jiangsu Huachen Transformer Co., Ltd. is a trusted partner. With years of expertise in manufacturing oil-immersed transformers, the company provides products that meet stringent quality standards and can be tailored to diverse applications. Their commitment to innovation and customer support makes them a reliable choice for utilities, industries, and renewable energy developers alike.
