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POL valve
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POL valve on a 45 kg LPG cylinder
Male fitting to match POL valve

A POL valve (originally for Prest-O-Lite) is a gas connection fitting used on liquefied petroleum gas (LPG) cylinders.

The oldest standard for such connections, it was developed by the Prest-O-Lite company, hence the name.[1] It is still the most common such fitting in some countries such as Australia.[1] All 4.5 kg and 9 kg gas cylinders in Australia used a POL valve until 2021, when they were phased out in favor of the LCC27 valve.[2] There are an estimated 9 million 9 kg cylinders with the Type 21 (POL) valve and cylinder connection in circulation across Australia. In this market, the cylinders mostly supply gas to consumer owned barbecues and patio heaters.[3]

POL valves are legal and quite common in the United States, especially on larger containers, although certain uses (smaller portable containers) require a modified version of the POL valve that includes some safety features.

In making the connection, a male connector is screwed into the Type 21 valve. The first male connectors relied on a metal to metal connection (brass on brass) with sufficient pressure applied via a hexagon nut to achieve an effective seal. The hexagon nut required a spanner to achieve sufficient pressure to obtain a gas tight seal. The notched hexagon nut denotes it is a left-hand thread. Following international convention, the standard changed to allow the use of an integrated hand wheel, with leak tightness being provided by an o-ring or rubber bull nose.[3]

Thread Type

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POL is the common name for the standard CGA 510 (US Compressed Gas Association connection number). The Thread specification is .885" – 14 NGO – LH – INT, meaning 0.885 in (22.5 mm) diameter thread, 14 threads per inch (1.814 mm pitch), National Gas Outlet form, left-hand internal thread.[4] This thread is also referred to as "Type 21" as per the Australian standard AS2473.2.[5] In summary, POL, CGA 510 and Type 21 all refer to the same specification.

See also

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References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

POL valve

View on Grokipedia
from Grokipedia
A POL valve, an abbreviation for Prest-O-Lite, is a cylindrical service valve and connection fitting designed for (LPG) cylinders, primarily used to store and dispense in residential, commercial, and industrial applications. Introduced in the by the Prest-O-Lite company, it represents the earliest industry standard for propane tank connections, featuring internal left-hand threads that require a for secure attachment to regulators or hoses, along with a removable plug for safe transport and storage. The valve's design includes a handwheel for manual operation and a fixed liquid level gauge in some models, but it notably lacks modern safety mechanisms, such as automatic shutoff when disconnected, allowing gas to escape if the connection is loosened or absent. This has led to its classification as an older, less secure option compared to subsequent standards like the Acme valve (with external right-hand threads for hand-tightening) or the Overfill Prevention Device (OPD) valve, which incorporates overfill protection and a triangular handwheel to prevent confusion with other fittings. Despite these limitations, POL valves remain in use on larger cylinders (e.g., 100-200 lb. tanks) in certain regions and for specific equipment, though regulations in many areas, such as the and , mandate their replacement with safer alternatives like QCC1 or LCC27 fittings on new or refilled cylinders to enhance user safety and prevent overfilling.

History

Origins and Development

The POL valve originated with the founding of the Prest-O-Lite Company in 1904 by , , and Percival C. Avery, who established the firm—initially named the Concentrated Acetylene Company—to manufacture and distribute portable cylinders filled with compressed acetylene gas for automobile headlamps. This innovation addressed the need for reliable, portable lighting in early automobiles, replacing less practical carbide generators with self-contained tanks that could be easily transported and installed. The company's cylinders required a robust valve system to handle the high pressures of acetylene while ensuring safety during storage, shipping, and use in vehicles. The valve, named after the Prest-O-Lite brand, was specifically designed as a secure, tamper-resistant connection for these high-pressure gas cylinders, featuring left-hand threads to prevent accidental cross-connection with other gas fittings and to minimize leaks that could lead to explosions or fires. Its initial purpose focused on applications, providing a metal-to-metal seal that was durable for the rigors of automotive transport and operation. This design emphasized reliability in an era when gas-powered lighting was revolutionizing nighttime driving, and the Prest-O-Lite system quickly became a standard feature on many early 20th-century vehicles. In the mid-20th century, following the company's acquisition by and Carbon Corporation in 1917, the POL valve transitioned from primarily use to broader applications with (LPG), as Prest-O-Lite standardized its fittings for various compressed gases. This evolution aligned with the growing adoption of LPG for industrial and domestic purposes, leveraging the valve's proven security for cylinders. A key milestone came in the 1920s when the Compressed Gas Association (CGA), founded in 1913, formalized the POL connection as an industry standard under the CGA 510 designation, ensuring compatibility and safety across compressed gas systems.

Adoption and Standardization

The POL valve, originating from Prest-O-Lite's acetylene technology in the early 1900s, gained widespread adoption for propane cylinders in the United States during the 1930s and 1940s as the LPG industry expanded with the introduction of portable 20-pound cylinders in 1936 to facilitate distribution for rural and residential use. In Europe, adoption accelerated in the post-war period, with propane emerging as the preferred cylinder fuel in northern regions by the 1950s amid growing LPG sales from 300,000 tons in 1950 to 3 million tons in 1960, establishing it as a de facto standard for LPG distribution across domestic and industrial applications. Standardization efforts for the POL connection, designated as CGA 510 for and other LPGs, began post-World War I under the Compressed Gas Manufacturers Association (predecessor to the CGA) to address incompatible fittings and safety risks, with formal national acceptance by the American Standards Association and Canadian Standards Association in 1949. Global variants proliferated, particularly in and other regions, where the POL design was integrated into domestic gas appliances for its reliability in portable systems. Key post-World War II developments included the POL valve's integration into expanding consumer markets for portable stoves and heaters, supporting U.S. sales growth to one billion gallons by as local bottle-filling plants became commonplace. This proliferation influenced international standards, such as ISO 15995 for LPG valves, which specify compatible outlet connections to ensure safe handling and prevent misconnections in global gas fittings. By the , the POL fitting dominated U.S. LPG cylinder connections, serving as the primary interface for the vast majority of portable and residential systems until regulatory changes in the required overfill protection devices on new cylinders, initiating a gradual phase-out.

Design and Specifications

Thread Configuration

The POL valve employs a standardized thread configuration defined by the Compressed Gas Association (CGA) standard 510, featuring an internal thread diameter of 0.885 inches with 14 threads per inch in a left-hand (LH) orientation under the National Gas Outlet (NGO) specification. This design ensures compatibility with and similar (LPG) cylinders, where the valve's female internal threads engage with male external threads on connecting regulators or pigtails. The connection mechanism relies on a metal-to-metal seal achieved through the precise mating of these threads, eliminating the need for or additional sealing elements and providing a robust, direct interface for gas flow. Operationally, the left-hand threading requires counterclockwise rotation for tightening, which inherently resists accidental loosening from vibrational forces or handling, enhancing connection stability. Secure attachment typically involves a applied to the 7/8-inch hex nut on the regulator inlet, ensuring is applied without damaging the threads. This configuration supports service pressures up to 250 psig, suitable for standard LPG applications in DOT-specification . For vertical installations requiring withdrawal, optional dip tubes extend from the outlet to the bottom, facilitating propane extraction while maintaining the thread integrity for external connections.

Construction and Materials

The POL valve is primarily constructed from forged for its body, providing excellent corrosion resistance and durability in (LPG) environments, where exposure to and mixtures demands materials that withstand both chemical and mechanical stresses. This construction ensures the valve's longevity, as resists the corrosive effects of compounds often present in LPG, while maintaining structural integrity under pressure. Key components include an integrated handwheel for manual operation, allowing users to open or close the valve without tools, and a protective plug or cap that shields the outlet from damage and contamination when not in use. An optional dip tube, typically 11.6 inches long for 100 lb s, facilitates liquid propane extraction by extending to the bottom of the , while vapor withdrawal occurs through the standard outlet. Sealing is achieved via O-rings or soft seats in variants, preventing leaks during operation. Manufacturing adheres to Compressed Gas Association (CGA) tolerances under standard CGA 510, with working pressure ratings of 250 psig and settings at 375 psig to safely vent excess pressure. The valve body measures approximately 2-3 inches in height, compact enough for installation on standard cylinders, and features an outlet port compatible with 1/4-inch NPT adapters for regulator connections.

Applications

Domestic Use

POL valves were historically employed in domestic settings for connecting 20 lb propane tanks to appliances such as barbecues, patio heaters, and portable stoves, providing a reliable interface for fuel delivery in residential and recreational environments. Although new 20 lb cylinders manufactured after must feature overfill prevention device (OPD) valves per U.S. DOT/PHMSA regulations adopting NFPA 58 standards, POL valves remain in use on older, requalified tanks. These valves facilitate the secure attachment of propane cylinders to low-pressure systems, ensuring safe operation for everyday household tasks like and heating. Installation involves direct attachment of a compatible regulator to the POL valve on the , which steps down the high tank pressure to a low-pressure output of approximately 11 inches suitable for domestic appliances. This setup allows for straightforward connection using standard POL-compatible assemblies, enabling efficient flow to devices without requiring specialized tools or modifications. In common domestic scenarios, older POL-equipped 20 lb tanks power barbecues during events, provide heat via patio heaters for outdoor gatherings, and portable stoves for trips, while also supporting home backup generators during power outages. Their portability and compatibility with typical assemblies make them ideal for these mobile and temporary uses, though adapters may be needed for newer OPD-equipped systems. Maintenance for POL valves in domestic applications includes routine visual inspections to check for thread damage or on the and fittings, ensuring integrity before each use or storage. Refilling occurs at certified stations, where technicians connect directly to the existing without removal, adhering to standards for requalification and filling; however, tanks exceeding requalification periods must be replaced.

Commercial and Industrial Use

POL valves are widely utilized in industrial settings for propane cylinders of 100 pounds and larger, powering equipment such as , site heaters, and agricultural dryers. In operations, these valves facilitate reliable vapor withdrawal from DOT-approved cylinders, ensuring consistent fuel delivery for in warehouses and facilities. For heaters, POL-equipped tanks provide the necessary flow to maintain site temperatures during cold-weather projects, often connected via high-pressure hoses compliant with industry standards. Similarly, in agriculture, larger POL cylinders support dryers by supplying to high-capacity burners that accelerate and drying, minimizing moisture-related losses and enhancing storage quality. In commercial environments, POL valves integrate into bulk propane delivery systems for applications like restaurant fryers and operations. Restaurants rely on manifolded setups with multiple 100-pound or larger cylinders fitted with POL valves to deliver steady supply to deep fryers and ovens, supporting high-volume cooking without interruptions. Welding shops use these valves on portable or stationary cylinders to fuel oxy- torches for metal cutting and joining, where the left-hand threading allows secure connections to specialized regulators. These systems emphasize durability, with enabling repeated connections in demanding professional workflows. The scalability of POL valves supports manifolded cylinder banks for continuous supply in high-demand industrial and commercial scenarios, where multiple tanks are paralleled to provide uninterrupted service during peak usage. These configurations are compatible with high-flow regulators capable of handling demands up to 500,000 BTU per hour, ideal for large-scale heating or equipment. All installations must adhere to NFPA 58 standards, which govern the , piping, and integration in fixed systems to ensure safe management and leak prevention.

Safety Features and Concerns

Advantages

The POL valve's robust construction from forged provides exceptional durability, resisting and withstanding repeated connections and disconnections without significant wear, making it well-suited for long-term deployment in demanding outdoor and industrial settings. This material choice ensures reliable performance over extended periods, often spanning 10-15 years with routine inspections. Its mechanical simplicity, featuring a straightforward left-hand threaded with metal-to-metal or seals and no electronic components, minimizes potential failure points and facilitates easy manufacturing and on-site repairs using basic tools. This uncomplicated structure allows for quick assembly and disassembly, reducing downtime in maintenance scenarios compared to more complex modern alternatives. POL valves offer cost-effectiveness through lower production expenses due to their basic, standardized design, which has enabled economical integration into legacy systems without the need for or . Their widespread adoption historically has driven down repair and replacement costs, as parts remain readily available and inexpensive for older installations. With origins tracing back to the as the pioneering standard developed by Prest-O-Lite, POL valves have demonstrated a proven track record of over a century of reliable service in safely managing across diverse applications when properly maintained. This longevity underscores their dependability.

Limitations and Phase-Out

POL valves lack an integrated excess flow valve (EFV) capable of effectively halting gas flow in the event of a damaged connection, thereby elevating the of significant leaks and potential fires or explosions during accidents. Unlike modern designs, this absence means that if a or fitting is severed, can continue to discharge at full pressure without automatic restriction, exacerbating hazards in high-demand scenarios. Additionally, POL valves do not incorporate overfill protection mechanisms, allowing cylinders to be filled beyond safe liquid levels, which can lead to ruptures or liquid expanding vapor explosions (BLEVEs) when the overfilled container is exposed to heat, as the excess liquid expands and pressurizes the vessel beyond its limits. Overfilling concerns with propane cylinders equipped with POL valves in the late , including reported fires and explosions , underscored these vulnerabilities and spurred regulatory action. These issues influenced the development of standards to mitigate overfill-related hazards. In the United States, the phase-out of POL valves was formalized through the 1998 edition of NFPA 58, the Code, which mandated the use of overfill prevention devices (OPDs) on new propane cylinders with capacities between 4 and 40 pounds manufactured after September 30, 1998, and required OPD-equipped cylinders for refills starting April 1, 2002. This transition effectively replaced POL fittings with safer alternatives incorporating float-based shutoff mechanisms to prevent overfilling. In , the shift from Type 21 (POL) connections to LCC27 fittings for small portable LPG cylinders up to 9 kg (under 10 kg capacity) began in 2021, with POL outlets prohibited on new cylinders from October 1, 2021, and appliance connectors required to use LCC27 from April 1, 2022, completing the rollout for new production by the mid-2020s within standard cylinder recertification cycles. Existing cylinders continue to be phased out through recertification, with full transition anticipated by the mid-2030s. As of 2025, POL valves remain legal for existing cylinders in many regions, including the and , provided they pass requalification inspections and are not refilled in jurisdictions enforcing OPD or LCC27 mandates. However, production and sale of new cylinders with POL fittings are prohibited in safety-regulated markets like the and to align with updated standards prioritizing excess flow and overfill protections.

Comparisons with Modern Valves

Versus OPD Valves

The POL valve features left-hand internal threads that require a for secure connection to regulators and hoses, in contrast to the OPD valve, which uses right-hand ACME threads and includes a triangular handwheel serving as a visible float indicator for overfill detection. A primary enhancement of the OPD valve over the POL is its integrated float mechanism, which halts filling at approximately 80% capacity to accommodate liquid expansion from temperature changes and avert potential cylinder bursts—a protection entirely absent in POL valves. POL regulators cannot directly connect to OPD valves due to the incompatible thread directions and designs, necessitating adapters for interchangeability, while OPD valves became mandatory for all new U.S. propane cylinders weighing 20 pounds or more starting , 1998, to enforce these safety standards. Additionally, OPD valves provide an excess flow shutoff that automatically limits gas release during a sudden surge or , reducing hazards beyond what POL valves offer through manual operator control alone.

Versus LCC27 Fittings

The LCC27 fitting represents a significant from the traditional POL valve in (LPG) cylinder connections, particularly in design and usability. While the POL valve employs a 0.885-inch left-hand threaded connection that requires a for tightening, the LCC27 utilizes a 27 mm right-hand threaded quick-connect mechanism with a large handwheel, enabling tool-free installation. This shift addresses the counter-intuitive threading of the POL, which has contributed to connection errors over decades of use since the . A key safety enhancement in the LCC27 is its integrated check valve, which automatically seals gas flow until the fitting is fully connected to an appliance hose, thereby minimizing leak risks during handling or disconnection. In contrast, the POL valve lacks this feature, relying solely on an O-ring seal that is susceptible to degradation, dust ingress, and improper tightening, leading to potential gas escapes and fire hazards. Additionally, the LCC27 incorporates a thermal cut-off that halts gas release if exposed to fire temperatures, further reducing incident risks compared to the POL's more basic construction. Adoption of the LCC27 has been standardized in and since April 2021 for new 4-9 kg LPG cylinders used in leisure applications, such as barbecues and portable heaters, as part of a mandated phase-out of POL valves to eliminate adaptor misuse and associated safety overrides. This transition, initiated in 2021 following safety reviews, requires all new appliances to feature LCC27-compatible connectors, with full replacement of existing POL cylinders occurring over a 10-year retest cycle ending around 2031. Authorities have explicitly banned adaptors linking LCC27 appliances to POL cylinders due to their propensity to bypass check valves and cause leaks, prompting users to upgrade cylinders directly. Ergonomically, the LCC27's design allows for straightforward hand-tightening via its oversized plastic nut, promoting secure connections without specialized tools and reducing user error in domestic settings. The POL, by comparison, demands a wrench for its external threading, which can complicate quick setups. However, LCC27-equipped hoses on modern appliances are incompatible with legacy POL valves absent prohibited converters, ensuring a controlled shift to the safer standard while maintaining backward compatibility for POL hoses on new LCC27 cylinders. This regional focus aligns with broader global efforts to retire POL valves in favor of advanced fittings, though implementation varies by market.

References

  1. https://johnsonville.com/propane-tank-connection-types/
  2. https://www.trinitylpgas.com/blog/decoding-propane-part-name-abbreviations/
  3. https://www.sianvalves.com/What-is-the-Difference-between-an-OPD-Valve-and-a-POL-Valve-id69005417.html
  4. https://www.propanewarehouse.com/product-category/fittings/pol-fittings/
  5. https://www.snowys.com.au/blog/pol-and-new-lcc27-gas-fitting/
  6. https://indyencyclopedia.org/prest-o-lite/
  7. https://www.firstsuperspeedway.com/articles/prest-o-lite
  8. https://hoseandfittingsupply.com/pol-bottled-gas-s/90.htm
  9. https://www.plumbers-supply-co.com/ASSETS/DOCUMENTS/ITEMS/EN/UNI-PS19117_Cat.pdf
  10. https://www.cganet.com/
  11. https://www.stargasproducts.com/forms/The_History_of_Propane.pdf
  12. https://www.rvbasics.com/techtips/rv-propane-tank-valves.html
  13. https://www.scribd.com/document/181372292/The-Story-of-LPG-pdf
  14. https://store.accuristech.com/products/preview/1859238
  15. https://www.dailykos.com/stories/2014/2/19/1278773/-History-101-Propane
  16. https://www.iso.org/standard/81929.html
  17. https://www.bestmaterials.com/pdf_files/propane-fitting-threads.pdf
  18. https://www.gasequipment.com/content/02-cylinderandservicevalves.pdf
  19. https://www.regoproducts.com/products/cylinder-valves-and-multivalves/dot-cylinder-vapor/d9103-series.html
  20. https://www.elgas.com.au/elgas-knowledge-hub/residential-lpg/lcc27-gas-bottle-pol-gas-fittng-adaptor/
  21. https://plumbingfactor.com/what-is-a-pol-valve-on-a-propane-tank/
  22. https://protanksupply.com/shop/accessories/cylinder-accessories-accessories/propane-pol-2/
  23. https://norgascontrols.com/products/gas-regulators/propane-regulators/
  24. https://gascylindersource.com/shop/propane-alternate-fuels-cylinders/100-lb-propane-pol-valve-3-4-375-psi-10-6-dip-tube/
  25. https://www.amazon.com/Propane-Grilling-Cooking-Heating-Camping/dp/B0BNNX48Z4
  26. https://gascylindersource.com/shop/propane-alternate-fuels-cylinders/100-lb-lp-pol-valve-for-propane-cylinder-tank/
  27. https://www.ebay.com/itm/335007066239
  28. https://www.walmart.com/ip/100-200-LB-LP-POL-Valve-for-Propane-Cylinder-Tank-11-6-Tube-375-PSI-3-4-NGT/5383015017
  29. https://www.phmsa.dot.gov/faqs/cylinder-approvals-overfilling-prevention-device-opd-faqs
  30. https://www.phmsa.dot.gov/sites/phmsa.dot.gov/files/docs/propane_en_v3.pdf
  31. https://flamekingproducts.com/products/flame-king-100lb-propane-tank-lp-cylinder-with-pol-valve
  32. https://www.cuiheat.com/product/W420ASME
  33. https://www.regoproducts.com/productdetails.X1584VN.html
  34. https://www.ebay.com/itm/306356699421
  35. https://www.cavagnagroup.com/wp-content/uploads/2023/10/LPG-Valves-and-Equipment-2023-24_rev5.1_web.pdf
  36. https://www.weldingweb.com/threads/what-is-pol.91001/
  37. https://www.rego-europe.de/fileadmin/user_upload/literature/catalogues/News-brochures/RG-100_2019_Regulator_Book-min.pdf
  38. https://diygasfirepits.com/products/reg20f-fixed-high-pressure-20-psi-lp-propane-gas-500k-btu-regulator-w-pol-valve
  39. https://docinfofiles.nfpa.org/files/AboutTheCodes/1/TIA_1_24_5.pdf
  40. https://www.alibaba.com/showroom/pol-valve.html
  41. https://community.goodsam.com/discussions/technicalissues/propane-tank-question/2036618
  42. https://www.unece.org/sites/default/files/datastore/fileadmin/DAM/trans/doc/2019/dgwp15/ECE-TRANS-WP15-AC1-19-BE-inf8a1e.pdf
  43. https://www.lpgasmagazine.com/the-evolution-of-propane-safety/
  44. https://www.wa.gov.au/government/announcements/new-lpg-cylinder-valve-transition
  45. https://www.hireandrentalnews.com.au/existing-type-21-pol-lpg-valve-cylinders-to-be-phased-out/
  46. https://propane.com/common-propane-fittings-and-devices/
  47. https://www.cavagnagroup.com/filler-valve-with-opd-cavagna-group/
  48. https://www.ferrellgas.com/tank-talk/blog-articles/understanding-the-risks-of-overfilled-propane-tanks/
  49. https://technorv.com/blogs/articles/built-in-propane-safety-devices
  50. https://www.elgas.com.au/elgas-knowledge-hub/swapngo/lcc27-gas-bottle-development-history-a-4%C2%BD-year-journey/
  51. https://www.cbos.tas.gov.au/newsroom/news-items/gas-connection-changes
  52. https://www.wa.gov.au/government/announcements/make-the-right-connection-after-buying-new-gas-appliances
  53. https://www.bromicplumbing.com/australias-lcc27-lpg-cylinder-connection/
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