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Reducing the risk of handling hazardous high-value chemicals

Dry disconnect coupling system improves safety and bottom line 


Butadiene. Xylene. Toluene. Sul­furic acid. Potassium hydroxide. Even the names of these hazardous chemicals sound danger­ous. In addition to potentially harming the health of humans and the environment if mishandled, they have another thing in common: they are very expensive to produce.

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That's why manufacturers, processors, shippers and distributors of highly haz­ardous, high-value chemicals enter into a tacit agreement with their employees and the environment: these incredibly volatile and valuable fluids must be handled with the utmost care, from the manufacturing plant through the railcars and tanker trucks that ship them and the bulk-storage facilities that house them, to avoid any potential damage or harm.

A key link in the chemical-pro­cessing supply chain is the equipment that is used to facilitate the transfer of volatile chemicals from the manufacturing facility to transport vehicles and then to the storage terminal. For years, the accepted technology for the dry disconnect couplings that would enable the connection of hoses to stor­age tanks and transport vehicles has feamred a poppet-style design.

POPPETS MAY COMPROMISE SAFETY

The use of poppets, however, can compromise safety and create potential problems for the handler who is look­ing to ensure the safety of employees and the environment because the shape of the poppets inside the coupler hous­ing form areas where chemicals can nest, meaning that there will always be the possibility that some type of prod­uct spill can occur when the couplings are disconnected. This is not a big issue if the fluid being handled is non-hazardous and inexpensive, but a potential problem when handling hazardous and high-value fluids.

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When utilizing poppet-style dis­connects as in figure 1, liquid transfer is initiated when the poppets are opened by the operator (Step 1). The liquid-transfer is completed when the operator closes the poppets (Step 2). However, at this time, a small amount of liquid can be trapped and during disconnection, it is possible that the trapped liquid can escape, leading to a minor product spill (Step 3). When hazardous, high-value chemicals are being handled, this potential product spill can be harmful to site personnel and the environment.

DRY-DISCONNECT COUPLING TECHNOLOGY

Fortunately for the handlers of dangerous chemicals, there is an alternative dry-disconnect coupling technology that addresses all of the operational shortcomings that are inherent in poppet-style coupling designs. What sets the Epsilon Dry Disconnect Coupling apart from traditional coupling technologies is the use of a ball-valve design instead of poppets to facilitate opening and closing of the coupling.

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The unique ball-valve operation of the Epsilon disconnect, shown in Fig­ure 2, allows a convex ball to seat with a concave ball when the valve is opened (Step 1). This straight-through design allows the liquid to transfer through the adaptor and coupling with no reduction in flow rate (Step 2). Upon disconnection there are no cavities cre­ated in which product can nest, mean­ing no product will be spilled (Step 3). This no-spill operation is accomplished through the use of five independent and redundant mechanical interlocks that require deliberate sequential action by users, thereby eliminating uninten­tional spills and catastrophic chemical releases.

In addition, the Epsilon was also en­gineered for easier maintenance when compared to a poppet-style design. The Epsilon allows for quick replacement of the transfer seal without any lockout. This helps minimize downtime when replacing the seals, stems and bearings. Also, no special tools are required for replacement of the seals.

Other standard-setting features and benefits that enable the Epsilon Dry Disconnect Coupling to stand apart from the competition include straight-through fast-flow design for optimized loading/unloading times.

Seals, stems and bearings are easily replaced for like-new performance with minimal downtime. Wetted components are available in 316 stain­less steel or Hastelloy C. The units are offered with spring-loaded and spring-energized PTFE, TFM or PFA seals. An optional keyed interface iso­lates transfer lines, preventing product cross-contamination.

The Epsilon Dry Disconnect Cou­pling is available in 1-, 2- and 3-inch sizes.

David Morrow is Director of Product Management for OPW Engineered Systems.