Month: May 2023

Transformer Oil’s Impact on Performance and Lifespan

Posted on by Armor Lubricants

Explores how transformer oils quality impacts transformer performance, reliability and lifespan.

What is transformer oils?

Transformer oil, often overlooked, is the unsung hero in the grand opera of electrical systems. It’s a special type of oil, primarily used as an insulator and coolant in transformers. Acting as the lifeblood of the transformer, it circulates through the system, absorbing heat generated by the transformer and dissipating it to the environment, ensuring the transformers doesn’t overheat.

What are the different types of transformer oils?

Not all transformer oils are created equal, there are two main types:

Mineral-based transformer oils

Derived from crude oil through a refining process, they are the most commonly used type of transformer oils due to its cost-effectiveness and excellent electrical insulating properties.

Mineral oil provides good cooling, has a high flash point (the temperature at which it ignites), and effectively prevents the formation of moisture inside the transformers.

However, it is not as environmentally friendly as its synthetic counterpart, and it can pose a fire hazard in high-temperature environments due to its lower fire point compared to synthetic oils. Hence, many environmental aware people are trying to urge people and companies to switch to synthetic oils.

Synthetic transformer oils

Synthetic transformer oils is made from chemical compounds, typically esters, either synthetic or bio-based. Synthetic oils are known for their high fire points, making them safer for use in situations where fire safety is a significant concern.

They are also biodegradable and less harmful to the environment, therefore, they are a preferred choice in environmentally sensitive areas. Not to forget that they have superior moisture tolerance and can operate at higher temperatures without breaking down.

However, synthetic transformer oils are generally more expensive than mineral-based oils, which can be a limiting factor for their use.

What are the properties of transformer oil?

You can not just use any oil in the transformer, you need a specific oil with explicit characteristics because transformers function in sensitive conditions playing vital role to our electrical network. Here are the most important properties needed to:

Dielectric Strength: This is the ability of the oil to resist electrical breakdown under high voltage. A high dielectric strength is crucial as it ensures the oil can effectively insulate the transformer’s components, preventing electrical discharges that could damage the transformers.

Flash Point and Fire Point: The flash point is the temperature at which the oil gives off vapors that can ignite, while the fire point is the temperature at which the oil can sustain a fire. Higher flash and fire points are desirable as they increase the safety of the transformer in case of a fault condition that leads to excessive temperatures.

Oxidation Stability: its ability of the oil to resist oxidation can prevent the formation of sludge and other harmful deposits.

Thermal Conductivity: Higher thermal conductivity is important for effective cooling of the transformers.

Chemical Stability: The oil should be chemically stable and not react with the materials in the transformer to prevent the degradation of the transformer’s components and ensures the transformer operates effectively.

Low Pour Point: A low pour point is important for transformers operating in cold environments to ensure the oil can flow and lubricate the transformerseffectively at low temperatures.

Water Content: The oil should have a low water content as water can decrease the dielectric strength of the oil and accelerate the aging of the transformer’s insulation.

Gas Absorption: The oil should have a low capacity for gas absorption because gases can decrease in the dielectric strength of the oil.

Neutralization Number: This is a measure of the acidity of the oil. A low neutralization number is desirable as acidic oil can accelerate the aging of the transformer’s insulation.

Why is transformer oils important for transformers?

Transformer oils is a hero to electrical systems, playing a pivotal role in the smooth operation and longevity of transformers. Serving as an insulator and preventing electrical discharges that could damage the transformer is something that we need to praise transformer oils on.

When should transformer oils be replaced?

Like all heroes, transformer oil isn’t invincible. Over time, it degrades and lose its effectiveness, necessitating replacement. But when should it be replaced? The answer lies in regular testing and monitoring.

Factors such as a decrease in dielectric strength, an increase in acidity (as indicated by the neutralization number), or the presence of excessive moisture or particulate matter can signal that the oil is due for a change.

If the transformer has experienced a fault condition or if the oil has visibly degraded (e.g., become cloudy or discolored), it may be time for a replacement. Regular maintenance and monitoring are key to ensuring the transformer oil continues to perform its heroic duties effectively.

Armor Lubricants and Transformer Oil

Transformer Oil creates a barrier between the windings and the air preventing electrical current from flowing between them. This insulation is essential for preventing short circuits and other electrical hazards. It also acts as a coolant and transfers heat away from the windings and carries it to the transformer’s cooling system protecting the transformer from the dangerous consequences of overheating.

The quality of transformer oils have a significant effect on the performance and lifespan of the transformer, and that can be clear to anyone who tried to use cheaper alternatives.  Low-quality oils are easier to break down, and may increase leakage and contamination reducing the efficiency of the transformer and shorten its lifespan.

Understanding transformers needs, Armor Lubricants manufactures transformer oil in uae to meet their requirement following the highest manufacturing standards. Armor engineers, quality control department, and management all work together to produce transformer oil that can deliver top performance, at best price.

5 Reasons Demand is Increasing for Wind Turbine Lubricants

Posted on by Armor Lubricants

wind turbine lubricants growth demand

Five Reason Demand is Increasing for Wind Turbine Lubricants

  • Growth in Wind Energy Sector
  • Need for Efficient Operation and Maintenance
  • Increasing Size and Complexity of Wind Turbines
  • Regulatory Requirements

Key Roles of Oil for Wind Turbines

Lubrication Oil in wind turbines is needed to lubricate the moving parts reducing friction and wear.

Heat Dissipation oil helps to carry away this heat, preventing overheating and potential damage to the components.

Corrosion Protection Turbine Oils have additives that help protect metal surfaces from corrosion which is especially important in offshore wind turbines.

Noise Reduction It can minimize operational noise by reducing friction which can be a significant issue for wind turbines.

Shock Absorption Oil can also provide a degree of shock absorption in gearbox systems protecting gears from impact damage.

Contaminant Removal The oil helps to carry away contaminants from the system keeping the system properly functioning.

Explore the Different Types of Turbine Oils

Gear Oils

Need to withstand high pressures, resist oxidation, and protect against wear and corrosion and should contain specific additives to enhance their performance

Hydraulic Oils

Hydraulic fluids transmit power within the hydraulic systems used in wind turbines, such as the blade pitch control system

Main Bearing Oils

Lubricate the main bearings, which support the weight of the rotor and blades

Greases

Often used in various locations, including the yaw and pitch bearings and the generator bearings

Transformer Oils

These are used in the wind turbine’s transformer, where they act as both a coolant and an electrical insulator. Transformer oils need to resist thermal degradation and have excellent dielectric properties.

Wind Turbine MARKET Projections

2020 Global wind turbine market size of 98.71$ Billion

2021 Global wind turbine market size of 115.67$ Billion

2028 Global wind turbine market size of 152$ Billion

Is Your Hydraulic Fluid Right for Your System?

Posted on by Armor Lubricants

Guide to choose the right hydraulic fluid for efficiency and peak performance.

Identifying the ideal Hydraulic Fluid for your System

The hydraulic fluid is the cornerstone of any hydraulic system’s effective operation because the right one ensures optimal power and energy transmission from one component to another with minimal power loss.

When you head to the market, and see different options like Hydraulic Oil 10W, hydraulic oil 46, Hydraulic oil 32, and hydraulic oil 68 the price should not be the only factor to choose if you want your equipment to work efficiently.

Here is how you can verify that you have the suitable oil at the end of the day:

Check the Manufacturer’s Recommendations

The manufacturer always knows better, keep it in mind whenever you need to refill the system with hydraulic fluid. Check the manual, the right hydraulic oil for your machinery is typically specified there.

Operating Environment

The performance of the hydraulic fluid is directly affected by the conditions in which the equipment operates, because fluid’s properties and characteristics needed can vary based on temperature. Cold environment require fluid with a lower viscosity index, whereas hotter environments call for hydraulic oil with higher viscosity index.

Fluid Properties

There are plenty of different hydraulic fluids because they have different properties to serve distinct purposes. Always buy hydraulic oil with viscosity, wear resistance, and thermal stability in mind, and make sure they meet the requirements specified by manual.

Compatibility with Seals and Hoses

Do not dismiss the fact that not all hydraulic fluids are compatible with the materials used in the seals and hoses of every system. Using a fluid that is non-compatible with can deliver good performance for a while but will ultimately damage the hoses or seals leading to leakage. The results will be higher consumption of oil, increased down time due to maintenance need, and extra costs in repairs.

When you are no sure about the right oil, you can always consult with a experts to make better decisions. In Armor Lubricants, we have experienced specialists who can gladly help you pick the right hydraulic fluid with the best properties for your equipment.

The Impact of Hydraulic Fluid on System Performance

Never say “it is all oil, it is not a big deal” because it is a huge deal not just big even if it seemed to function properly for a while. To your equipment, this oil is almost as important as water to your body because hydraulic fluid is responsible for power transmission, lubrication, heat transfer, and sealing within a hydraulic system.

Use a fluid that is not compatible with your system, and you could potentially compromise these functions, leading to decreased performance, increased wear, and even system failure. Such failure with costs of thousands of dollars all can be avoided if you make the right hydraulic fluid decision.

How to Choose the Right Hydraulic Fluid

If you are not an expert in hydraulic fluids, then allow us to simplify things for you and help you make better decisions and understand what each property means:

Viscosity

Viscosity is the measure of a fluid’s resistance to flow, so higher viscosities exhibits more resistance to flow, while lower viscosities can flow more easily. The correct viscosity is essential for the hydraulic fluid to maintain an adequate lubricating film between components and to transmit power effectively.

It may help you to know that hydraulic fluids with a high Viscosity Index (VI) will change viscosity less with temperature and may be a good choice for environments with wide temperature variations.

Wear Resistance

Hydraulic fluids with anti-wear properties can provide higher protection the system’s moving parts. Ask for fluids that contain anti-wear additives, such as zinc dithiophosphate, which can help reduce wear in high-pressure systems.

Thermal Stability

This refers to a hydraulic fluid’s ability to resist breaking down under high operating temperatures. Oil breakdown due to overheating can cause oil oxidation which forms sludge and varnish that may clog the hydraulic system.

Synthetic hydraulic fluids often have better thermal stability than mineral oils and can be a good choice if your system operates at high temperatures or if you’re having issues with sludge and varnish.

Compatibility with Seals and Hoses

The hydraulic fluid must be compatible with the seal materials used in the system. Incompatibility can cause seals to shrink, swell, or even degrade, leading to leaks. Your equipment manufacturer can provide information on compatible fluids.

Hydrolytic Stability and Rust and Corrosion Resistance

Hydraulic fluids should resist water contamination (hydrolytic stability) and protect against rust and corrosion. This is particularly important in harsh or wet environments.

Ensuring the Longevity of your Hydraulic System with the Right Fluid

Never compromise quality when it comes picking hydraulic oil, because you will pay more than what you saved. Go for a known brand that can assure you high quality to protect all the equipment you have.

At Armor Lubricants, and as one of the prominent Hydraulic oil suppliers in UAE, we take pride in our record of producing high-quality hydraulic fluids with satisfied clients worldwide. We are more than happy to help you with technical support and inquiries.