Vacuum Insulated Piping for Cryogenic Transfer (6″+)

AET specializes in designing and manufacturing vacuum insulated piping systems that are essential for the cryogenic industry. These pipes are engineered to transfer low boiling point gases/liquids securely, maintaining their extremely low temperatures by effectively insulating them from external heat sources and atmospheric conditions.

Key Features:

  • Flex Segments Integration:

    • Our vacuum insulated pipe systems can include flex segments, which are designed to simplify and secure the alignment of customer connection points.
  • Cost-Efficient Solution:

    • Using vacuum insulated piping dramatically reduces the loss of precious cryogenic liquids due to heat leaks. This efficiency translates into significant savings, allowing for funds to be allocated to other critical areas of your project or increasing the volume of end product available for sale.
  • Preserving Product Integrity:

    • Our vacuum jacketed transfer lines ensure that the transported cryogenic liquids remain in optimal condition, preventing costly product degradation and loss.

For more detailed information on our vacuum insulated pipe solutions, please explore the tabs below or contact AET directly. We are here to provide tailored solutions for your specific needs.

Large Diameter Hose Considerations

Manufacturing large diameter vacuum insulated pipes presents unique challenges. At AET, we meticulously address these complexities through:

  • Detailed Inspections:
    • We often employ dye penetrant testing and radiograph examinations to ensure the structural integrity of our large diameter hoses.
  • Precision Calculations:
    • We conduct thorough assessments for various critical factors, including:
      • Contraction/Expansion Behavior
      • Heat Leak Management
      • Pressure Handling Capability
      • Spacer Functionality and Design

These extensive evaluations are key to delivering reliable and efficient large diameter vacuum insulated piping solutions tailored to specific use cases.

Sizes Available: 6″ to 24″ Inner Pipe Size. Larger sizes may be possible given design considerations. Please contact us for more information.

Common Uses of Large Bore Vacuum Insulated Piping:

  • Thermal Expansion/Contraction Relief:
    • Helps to manage and accommodate changes in pipe size due to extreme temperature variations, ensuring the integrity and safety of the system.
  • Slight Alignment Control:
    • Enables minor adjustments in the piping path, allowing for flexibility and ease in installation and maintenance.
  • Large Volumetric Flow Fuel Lines:
    • Facilitates the efficient and secure transport of large volumes of cryogenic fuels, such as Liquid Natural Gas (LNG), making it ideal for industrial applications.

These pipes are specifically designed to be robust and reliable, making them essential for high-demand applications where precise temperature control and large volume transfer are required.

 

What Primary Industries Utilize Vacuum Insulated (Jacketed) Pipe / Hose?

  • Aerospace:
    • Keeps rocket fuels cold until needed for launches.
  • Lab & Scientific:
    • Preserves and transfers cold liquids, like liquid nitrogen, for experiments and equipment cooling.
  • Industrial Cryogens & LNG (Liquid Natural Gas):
    • Safely moves cold liquids, including LNG, from production to storage and transport.
In the above video, a selection of vacuum insulated (jacketed) hose fabricated by AET can be seen starting at 0:34.

In the below video, cold shock testing of a large bore bayonet is displayed.

Why Choose AET for Your Piping Needs?

  • Extensive Flex Diameter Options:
    • AET offers a wide selection of flex diameters to suit various applications and installation requirements.
  • Diverse End Connection Choices:
    • We provide multiple options for end connections, allowing for seamless integration with your existing systems.
  • Customizable Braid Options:
    • Choose between configurations with or without a braid, depending on your design pressure needs.
  • Material Certifications for Peace of Mind:
    • Upon request, AET can provide material certifications, ensuring the quality and compliance of our products.

With AET, you’re not just purchasing a product; you’re investing in quality, customization, and expert support.

    Looking for Large Bayonet Cryogenic Couplings?

    We don’t just specialize in vacuum insulated piping; we also provide large bayonet cryogenic couplings up to 24 inches in inner pipe diameter. Here’s why they stand out:

    • Cold Shock Tested:
      • Ensures they can handle extreme cold without failing.
    • Smart Design:
      • Engineered for reliable and effective use in cryogenic applications.
    • Easy Installation:
      • Flange-based connection means setup is quick and hassle-free.

    Count on AET for top-notch bayonet cryogenic couplings and vacuum insulated pipe solutions.

    Vacuum Jacketed Pipe, also known as Vacuum Insulated Pipe or Cryogenic Piping, is a highly effective solution designed for the safe and efficient transfer of low boiling point liquids—such as liquid nitrogen or liquid oxygen—from one location (point “A”) to another (point “B”). This type of piping is especially critical in industries where maintaining extremely low temperatures during liquid transfer is essential.

    In a typical vacuum insulated pipe segment, as illustrated in the diagram below, the inner pipe or tube contains the process medium. This inner pipe is surrounded by multiple layers of mylar-based super-insulation, which serve to minimize heat ingress and thereby keep the contained fluid at a consistently low temperature.

    To further prevent thermal transfer, low-heat leak spacers are strategically placed between the inner and outer tubes. These spacers keep the two tubes separated and ensure that there is no direct metal-to-metal contact, which could otherwise create a path for heat to leak into the inner tube.

    The outer pipe, which encapsulates the inner tube and its insulation, is integral to the system. A pumpout port is fitted to this outer pipe, which allows for the removal of air from the annular space between the inner and outer pipes. By evacuating this space, a high vacuum is created. This vacuum serves as an insulating barrier that dramatically reduces heat transfer, thereby ensuring that the liquid within remains at its cryogenic temperature as it is transported through the pipe.

    These vacuum insulated pipes are essential components in various applications including the distribution of liquid gases in laboratories, healthcare facilities, and industrial plants. They are engineered to provide maximum thermal performance and are designed for easy installation and long-term, reliable operation.

    By using vacuum jacketed pipe from AET, you are choosing a product designed with precision and constructed to the highest standards, ensuring that your cryogenic liquids are transferred efficiently and safely.

    Cryogenic Society of America

    • Function: The Cryogenic Society of America is a not-for-profit organization dedicated to serving the needs of individuals and companies who are involved in advancing applications that require low-temperature solutions.
    • Resources: This organization provides a wealth of information and resources related to all things in the Cryogenic industry. They offer seminars, workshops, and conferences for professionals, as well as educational materials for those looking to learn more about the industry.
    • Publication: For those interested in staying up-to-date on industry trends and news, the society publishes a quarterly issue of the “Cold Facts” magazine, which features articles on various aspects of cryogenics, including technology updates, profiles of companies in the industry, and upcoming events.

    ASME B31.3 – Process Piping Code

    • Purpose: ASME B31.3 is a widely recognized and respected set of guidelines for piping safety. Developed by the American Society of Mechanical Engineers, it has been adopted into the design of many vacuum jacketed pipeline systems across various industries.
    • Contents: The guidelines within ASME B31.3 cover a vast array of topics, including materials, design, fabrication, inspection, testing, and much more. These comprehensive guidelines are designed to ensure the integrity and safety of piping systems, making them invaluable for engineers and designers of vacuum jacketed lines.

    Industry Conferences and Seminars

    • Engagement: For professionals working with vacuum jacketed lines, attending industry conferences and seminars can be invaluable. These events offer networking opportunities, presentations on the latest research and technologies, and insights into emerging trends in the field of cryogenics and vacuum insulated piping.

    By exploring and utilizing these tools and resources, professionals in the field can stay informed, continue their education, and ensure that their vacuum jacketed lines are designed, installed, and maintained to the highest standards.

      Some applications that would benefit from vacuum jacketed transfer lines include:

      • Testing Centers
        • For controlled environments where extremely low temperatures are required.
      • Liquid Natural Gas Relocation
        • To transport LNG efficiently, minimizing evaporation and energy loss.
      • Cryogenic Storage
        • To securely connect storage vessels and usage points, keeping fluids at low temperatures.
      • Cryo Transfer Systems
        • For safely transferring cryogenic liquids from one location to another with minimal heat leak.
      • Helium Purification Systems
        • To transport helium while maintaining its purity and low temperature.
      • Food Industry
        • Used in freezing processes to rapidly and uniformly cool food products.
      • Low Boiling Point Liquid Transfer
        • For moving liquids like liquid helium or hydrogen without significant losses due to boiling and evaporation.

      In these applications, vacuum insulated piping plays a key role in maintaining the integrity of cryogenic fluids, offering superior insulation and minimal heat leak.

      AET Product Lines for Cryogenic Vacuum Jacketed Transfer Lines:

      • Bayonets: Quick-connect fittings that allow for fast and secure connections between sections of vacuum jacketed lines.

      • Pumpouts: Ports that are integrated into the vacuum jacketed line system to facilitate the removal of air and the creation of a vacuum between the inner and outer tubes.

      • Flex Assemblies: Flexible sections of vacuum insulated piping, designed to accommodate movement and vibration between rigid sections of the pipeline.

      • Small U-Tube Vacuum Jacketed Jumpers: Short, U-shaped vacuum insulated pipe sections that facilitate connections between different lines or equipment in a compact and efficient manner.

      • Cryogenic Process Valves (Manual or Actuated): Valves specifically designed for use in cryogenic systems, allowing for controlled flow of cryogenic liquids. They can be operated manually or automatically.

      Note: In addition to AET’s comprehensive range of vacuum jacketed line assemblies and components, AET can seamlessly integrate third-party components—like additional Bayonets and Pumpouts—to ensure compatibility with an existing system.

      This flexibility allows AET to offer solutions that are tailored to meet the specific needs of each customer, regardless of the existing components they might already have in place.

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        Contact Information

        Ability Engineering Technology, Inc.

        16140 South Vincennes Avenue | South Holland, Illinois
        Postal Code: 60473 | United States of America

        Phone: +1 (708) 331-0025   |   Fax: +1 (708) 331-5090
        eMail: sales@abilityengineering.com

        ASME Section VIII Div 1. U | UM

        ISO 9001:2015
        Cage Code: 3W141

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