by Jackie Johnson Jackie Johnson No Comments

How to Design and Select Seals for Oil and Gas

As competition for natural resources increases, petrochemical companies have begun to look to new locations that pose new challenges from arctic operations with low ambient temperatures to subsea equipment with high pressures and extreme temperatures.

In addition, companies face higher demands for safety, reliability, and environmentally-friendly designs and processes.  There is also the challenge of reducing the footprint of structures and equipment for exploration and production of oil and gas.  All of these factors combined have driven up the costs involved in exploration and production, and made the design of oil and gas systems far more complex.

The design and selection of appropriate seals is key to many of these issues…

When seals malfunction, unpleasant things result:

  • personal safety hazards,
  • explosions and fires,
  • damage to local ecosystems,
  • downtime,
  • and repair costs.

The selection of seals that are effective and reliable is vital.  Many engineers are turning to PTFE spring-energized seals for oil and gas operations.  In this post, we are going to take a look at why based on the three key factors for seal selection: temperature, pressure, and media.

Extreme Temperatures

Temperature is one of the key aspects of selecting a seal in the oil and gas industry.  High temperature steam can cause a seal to become brittle and crack.  Temperatures below the glass transition temperature of a seal can cause a seal to behave as a brittle material, resulting in unexpected failure.

Polytetrafluoroethylene PTFE (Teflon) behaves differently from other plastics when it comes to its behavior at extremely high and cryogenically low temperatures.  There is still considerable debate over what its glass transition temperature is, but researchers agree that it can hold its strength at higher temperatures than most polymers, and still behave in a ductile manner at lower temperatures.

There are several different types of PTFE polymer seal jackets are available for spring-energized seals.  They cover a range of temperatures; for example, polyimide filled PTFE can function in temperatures down to -450° F while glass/PTFE can operate in temperatures up to 500° F.

Pressure Issues 

Pressures between 1,500 psi and 15,000 psi are becoming commonplace, buy in some applications pressures are up to 25,000 psi. PTFE seals offer excellent performance at both low pressures – where the spring energized seals support sealing even at low temperatures – and high pressures.

Pressure specifications for a seal are not just limited to the sealing capabilities, but can affect other properties as well.  For example, pressure can affect the glass transition temperature of a polymer: high pressures can drive down the glass transition temperature of a polymer, causing it to exhibit unexpected brittle behavior.  This is especially critical in sub-sea environments.

Another issue with pressure is extrusion.  There are certain types of filled PTFE that offer extremely high resistance to extrusion:  Moly-Filled PTFE, Glass-Moly PTFE, and Polyimide-Filled PTFE.

Aggressive Media

Seals in the oil and gas industry are obviously are going to be exposed to chemically aggressive media.  Sour gas and acid gas are some of the most chemically aggressive materials encountered in this industry, but PTFE is resistant to their attacks.  When media such as this are combined with high pressures and extreme temperatures, PTFE still performs well.

Conclusion

Oil and gas companies are faced with increasingly complex challenges, and to meet those challenges they need cutting edge equipment with reliable components.  Spring energized PTFE seals are one of those components, providing a leak-tight seal, excellent performance over a wide range of temperatures, and compatibility with many corrosive chemicals encountered.

 

by Sara McCaslin, PhD Sara McCaslin, PhD No Comments

Challenges Faced When Specifying Rotary Shaft Seals for the Food Industry

A good seal should be reliable, experience minimal wear, be easy to install, and enhance equipment performance–but the rotary shaft seals on equipment for food preparation and handling involves much more.

The wrong rotary shaft seal for a food industry application can lead to expensive downtime, costly material waste, damaged equipment, problematic production delays, and even lawsuits. That is why it is critical that the rotary shaft seals that are used in the food industry be carefully specified–which involves several challenges.

Where Are Rotary Shaft Seals Found?

Dynamic rotary shaft seals are a key component for equipment such as …

  • High pressure homogenizers
  • Water purification equipment
  • Meat blenders
  • Distilled water pumps
  • Milk dispensers
  • Ice cream dispensers
  • Food portioning systems
  • Mixers
  • Screw conveyors
  • Milling rice, wheat, and flower
  • Holding tanks
  • Hoppers
  • Crushers
  • Dry product filling systems

Reliable rotary shaft seals are critical for food preparation and handling that includes chocolate manufacturing, baking, beverage manufacturing, bulk material handling, material and poultry processing, feed and grain processing, and dairy processing.

Exposure to Media

Seals in the food industry can be exposed to various types of media, including water, oils, acids, adhesives, powders, semisolids, suspensions, slurrys, and more. Some forms of media, such as acids and slurries, can accelerate the rate of wear experienced by a rotary shaft seal and lead to premature failure if the wrong material is selected. The choice of a material that is compatible both chemically and with the form of media is critical.

Sterilization and Sanitation

Many times rotary shaft seals will be subjected to sterilization procedures for CIP (Clean in Place), SIP (Sterilize in Place) and COP (Clean Out of Place). These methods may require aggressive cleaning agents or disinfectants, superheated steam, and potentially corrosive acids. Finding a suitable rotary shaft seal material that can handle the sanitation and sterilization methods in place for the target equipment can be challenging but not impossible.  

Another potential issue with regard to cleaning involves potential need for seals that can be disassembled and cleaned daily. The ability to spend minimal time in disassembly/assembly can have a significant effect on the cleaning process in terms of time, effort, and the quality of sanitation or sterilization achieved.

Temperatures

As just alluded to, seals may be periodically exposed to extremely high temperatures for cleaning or may simply operate in a high-temperature environment. However, not all temperature concerns relate to high temperatures: some applications involve sub-zero temperatures. The seal and material behavior at the extreme operating temperatures must be considered when specifying seal geometry and material.

Contamination

The food industry can be quite demanding when it comes to rotary shaft seals. Because food is involved, there are a myriad of concerns regarding contamination, with potential sources including lubricants for the seals, contamination from seals that have begun to leak, and contamination from the seals themselves. 

Compliance with Applicable Standards

Any part of a rotary shaft seal that comes into contact with food must conform to regulations such as …

  • USP Class VI
  • FDA 21 CFR 177.1680, 177.1550, and CFR 177.2600
  • (EU) 1935/2004
  • 3-A sanitary standards 18-03 and 20-27
  • NSF/ANSI standard 61 for drinking water systems
  • WRAS BS 6920
  • 3-A Sanitary Standards
  • (EC) No. 1935/2004

And compliance involves more than just the contamination concerns just discussed. The standards and regulations also look at answers to questions such as …

  • Does the material release any chemicals?
  • Does it exhibit outgassing?
  • Does it tend to absorb moisture?
  • Does it react chemically to acidic food ingredients?
  • Can the material be detected or traced?

Conclusion

Issues such as media type, sterilization and sanitation procedures, temperatures, contamination, and regulatory compliance are all challenges faced in the food industry, and that includes dynamic seals for equipment such as mixers and dispensers. Failure to address these issues leads to the premature failure of seals, which in turn leads to material waste, downtime, and production delays as well as the loss of customer confidence and even lawsuits. 

At Advanced-EMC, we understand the challenges involved with specifying rotary shaft seals for the food industry. Our team has the knowledge and experience to assist you in finding the right rotary shaft seal for all your food industry applications. We will work with you to choose a sealing solution that will provide excellent reliability, easy maintenance, and outstanding performance, all while complying with all applicable standards.