Crane to present new energy solutions at upcoming events
Crane ChemPharma & Energy, a provider of highly-engineered solutions for fluid handling applications worldwide, will be introducing its new Xomox FK and Pacific Pressure Seal valves at upcoming industry events.
Engineered to address the inherent dangers of volatile chemical applications, the Xomox FK adheres to the industry's most stringent standards and combats the harmful effects of temperature and pressure fluctuation. Three independent stem seals offer superior fugitive emissions control, and are certified to EPA Method-21, ISO-15848 and TA-Luft according to VDI 2440. Self-relieving seats relieve excess pressure to protect the integrity of the valve while maintaining bi-directional operation. The patented SX ball stem design provides high maximum stem torque capability and built-in side load resistance, which extends valve life under severe conditions including thermal cycling.
Pacific Pressure Seal valves
Engineered to provide best-in-class performance to Power and Refining industries worldwide, the valve's self-aligning, spring-loaded discs reduce actuator torque requirements, while positive disc travel stops are cast into the body for uniform seat wear and improved sealing. With no wedging force, the disc reacts freely to thermal changes.
Duo-Chek and Noz-Chek check valves
Duo-Chek wafer valve design is generally stronger, lighter, smaller, and more efficient than conventional swing check valves. To best protect process equipment and deliver the lowest total cost of ownership, the innovative dual-plate design of the Duo-Chek uses springs to increase the valve reaction and response time.
Noz-Chek valves are specifically designed for fast-reversing systems where backflow is a constant concern. In critical service applications, Noz-Chek Non-Slam Check Valves minimise the damaging effects of water hammer in fluid systems, eliminate the chatter associated with conventional valves, protect rotating equipment from damage due to flow reversal, minimise pressure loss in piping systems and provide quick dynamic response to reduce reverse velocity.