All products and production procedures of YALAN Seals are certificated by ISO9001:2015.
Mechanical seals designed or manufactured by YALAN have similar performances to other products of worldwide well-known companies such as EagleBurgmann, John Crane, ASE and EKK. The operating lifetime of YALAN products can reach at least 80% of those products from these big brands, since we are using the same material vendors for most of our products as EagleBurgmann and John Crane China factories, while prices of YALAN mechanical seals are normally only 40% to 60% of the products from these famous companies. With great after-sales services, YALAN Seals, as great replacement solutions, has huge comparative advantages.
YALAN Seals is very confident in its product quality and basing on that, we offer half/1/2 years unlimited product quality warranty to our overseas clients. For more details about our product quality warranty, please
With over 27 years of mechanical seal designing and manufacturing experiences, YALAN Seals has now over 28 patents and inventions. For more details please
The factory of YALAN Mechanical Seals was founded in 1993. YALAN Seals has produced over 3,000 different types of mechanical seals. YALAN has a dedicated and experienced design team serving over 200 companies within and out of China for standard and custom mechanical seals. Some of our famous and long-term clients are: Giti Tires, RSP Industrial Pumps, Evonik Industrials, Asia Pulp and Paper (APP), JAC Motors, Lucky Film, BBCA Group, China National Salt Industry Corporation, China National Cereals, Oils and Foodstuffs Corporation and China Huaneng Group.All products and production procedures of YALAN Seals are certificated by ISO9001:2015.Mechanical seals designed or manufactured by YALAN have similar performances to other products of worldwide well-known companies such as EagleBurgmann, John Crane, ASE and EKK. The operating lifetime of YALAN products can reach at least 80% of those products from these big brands, since we are using the same material vendors for most of our products as EagleBurgmann and John Crane China factories, while prices of YALAN mechanical seals are normally only 40% to 60% of the products from these famous companies. With great after-sales services, YALAN Seals, as great replacement solutions, has huge comparative advantages.YALAN Seals is very confident in its product quality and basing on that, we offer half/1/2 years unlimited product quality warranty to our overseas clients. For more details about our product quality warranty, please check here With over 27 years of mechanical seal designing and manufacturing experiences, YALAN Seals has now over 28 patents and inventions. For more details please check here . YALAN Seals production facility is also one of the 200 companies that have National Industrial Production Permission for Mechanical Seals (in total over 10,000 mechanical seal factories in China, but only around 200 of them are legally producing mechanical seals with this permission).
The company is the world’s best Mechanical Seal the Graphite Parts supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.
Mechanical seals have a role in protecting the environment against contamination and making machinery run more efficiently, along with contributing to general health and safety. The key role of mechanical seals is to prevent fluids like water or oil from leaking into the area surrounding a piece of mechanical equipment.
Used with diverse types of powered machinery that feature rotating shafts, mechanical seals are utilized in a wide array of devices and equipment, including industrial machinery, residential appliances, rockets, ships and motor vehicles. As their proper functioning is so important to modern society, engineers should know how mechanical seals can fail and understand what should be done when they do.
What Mechanical Seals Do
Prior to the development of mechanical seals, engineers would seal a pump with mechanical packing, a fibrous material usually containing graphite or some other lubricant. This was cut into sections and packed into what was referred to as a “stuffing box,” with a packing gland added to the back in order to compact it. As this packing was in contact with the shaft, it would make the rotating shaft less efficient, robbing it of horsepower.
This method for sealing rotating shafts required a fair amount of liquid to leak through. Mechanical seals do the same job, only more efficiently. However, due to the fact this sealing method utilizes more fragile components, failures of mechanical seals have become a prime factor in failures of rotating shafts. For this reason, it’s necessary to always use a seal designed for the application.
Mechanical seals cover the point of a rotating shaft where fluids enter or exit. Typically, these seals prevent undue leakage from a fluid under higher pressure into a fluid under lower pressure. Depending on the application, mechanical seal types vary significantly, though they can be described as having a pair of seal faces, with one connected to the rotating shaft while the other remains stationary.
Mechanical seals don’t completely prevent leaks, however. They’re rather meant to control fluid leakage. When mechanical seals are operating normally, there’s a wafer-thin film of fluid between the rotating and stationary seal faces. This film lubricates the sealing faces to keep them from wearing out prematurely and causing equipment failure. This is especially true when it comes to mechanical seals for pumps.
Types of Mechanical Seal Failures
Depending on the application, mechanical pump seals face an array of operating conditions, some for which they weren’t designed. These conditions cause wear that can then cause future mechanical issues with a pump. Yet even under optimal circumstances, a seal may fail faster than expected. When a failure occurs, it’s crucial to identify what’s causing the leakage.
A mechanical seal can fail wherever there’s an O-ring or a gasket, as these weak points are most likely to leak. Failure could occur due to a worn O-ring. It could happen when dirt or other contaminants get between the seal faces. Or failure might ensue due to a design flaw. Whatever the cause, it’s important to fix a mechanical seal to both prevent environmental contamination and optimize pump efficiency.
Operational Issues
Certain operational conditions can undermine pump performance. Let’s take a look at a few of the most common issues with mechanical seals that keep pumps from functioning properly
Technical Malfunctions
Numerous technical faults can occur that then cause a mechanical seal to fail, inhibiting a pump’s ability to function properly. It’s not usually the faults themselves that cause mechanical seals to fail, but rather the vibrations these malfunctioning parts trigger.
Malfunctions to mechanical seals may result when:
- Coupling imbalance
causes severe vibrations that affect mechanical seals, especially when pumps are operating at or near full speed.
- Impeller imbalance
puts additional pressure on a pump that may lead to inefficient energy use, poor performance and abbreviated lifespan; it can be caused by factors such as impacts with other equipment, improper use or ordinary wear.
- Shaft misalignment
occurs as a shaft or surface moves from its proper position, leading to potential misalignment in sections or throughout the pumping system as loads shift, thus changing angles and orientations.
Other issues can also cause the pump to vibrate, thus affecting the mechanical seals, including an unsecured base, poor grouting or improper bolting. Additionally, when bearings wear thin, they can cause the shafts to move, which also causes the pump to vibrate.
Failure of Seal Components
Another important aspect to understanding why mechanical seals fail involves friction. When looking at how components within and surrounding the mechanical seal interact, it’s important to consider whether the material quality of the seal faces, especially considering the application, along with the best facing combinations. Secondary seals like gaskets and O-rings should also be able to withstand harsh chemicals and heat, or they may cause the mechanical seal to fail, while operators should watch for corroded bellows or clogged springs. It’s also imperative to spot any distortions to the seal faces due to heat or pressure, as this may cause the mechanical seal to bend, which can cause leaking.
Breakdowns Due to System Design or Poor Installation
Pump systems need to be properly configured and designed, otherwise they’ll not to work as they should, which can then result in mechanical seal failure. The seal flush arrangement should also allow sufficient cooling, with the auxiliary seal pot positioned correctly, along with the right instrumentation and piping.
There should be optimal length of straight pipe at suction, especially as older pump systems often have an elbow bent at 90 degrees at suction immediately before flow comes into the impeller eye. This elbow causes turbulence in the flow, resulting in instability of the rotating assembly. The engineering of the suction/discharge and bypass piping needs to be correct too, especially when pipes within the system have been previously repaired.
Improper installations sometimes damage mechanical seals, so it’s important to follow instructions precisely. Major damage to mechanical seals can result from just starting an incorrectly installed seal, even potentially causing damage to other parts of the pup.
Possible installation errors include:
- Couplings hammered into the shaft
- Dirty seal face
- Incorrect seal mounting to the shaft
- Misaligned shaft
- Overly tight fasteners
- Shaft moving around the axis
- Using the wrong assembly length
- Utilizing wrong seal
Whether a new installation or replacement of outdated equipment, proper installation of pumps and mechanical seal support systems designed to meet process demands is critical to long-term reliability. Upfront investments in these areas significantly minimize risks that lead to pump degradation and mechanical seal leakage causes.
Other Issues
The above factors account for the vast majority of all seal failures. Sometimes, however, it’s necessary to have an auxiliary system to provide more acceptable operational conditions for a mechanical seal. This is especially true when dealing with flammable or toxic liquids. For these dual systems, an auxiliary fluid is needed to create a barrier that will prevent contamination into the environment and air from getting into the process fluid. Many pumps also feature a throttle bushing that virtually eliminates leakage of any fluids should the mechanical seal fail.
For any type of rotating equipment, mechanical seals are necessary to maintain their reliability. When they fail, they can cause leakage and failures to other parts of a pump system. Yet when they fail, mechanical seals act to signal a problem that will cause even more serious damage. For this reason, engineers that work with pumps should always consider the design of a mechanical seal, along with how it interacts within its operating environment.
Hayes Pump: The Mechanical Seal Experts
As the largest pump distributor in the Northeast, Hayes Pump has the experienced personnel to answer any questions about mechanical seals and provide advice on their operation within centrifugal pumps. As experts on fluid systems, our parts department is here to help our customers select the right replacement components in order to optimize pump performance.
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