Used EDWARDS EH1200 #9027302 for sale

EDWARDS EH1200 is a type of cryogenic pumping system specifically designed for low temperature applications in the industrial gas and chemical processing industries. It features a high-efficiency bronze impeller and optimized volute design. EDWARDS EH 1200 produces more reliable pumping performance than typical centrifugal pumps because of its specially-designed impeller. This high-yield impeller is designed to move more efficiently in low-temperature environments, allowing it to transfer large amounts of cold gases and liquids quickly without sacrificing performance. The pump's volute is also designed to optimize efficiency while simultaneously reducing energy costs. This design improvement allows for up to 90% of the pump's energy to be recovered, making the system far more efficient and cost-effective than other centrifugal models. EH1200 can safely handle a wide cleaning application. This is both due to its high-strength brass base material, which makes the pump highly resistant to corrosion or wear, and the specially designed seals that are utilized to ensure tight seals between the pumphead and the volute. This help to protect the pump from higher pressures and suction loads. EDWARDS EH2K00 also has a high suction lift, allowing it to pump water higher than most other centrifugal pumps. This is mainly due to the unique, highly-oriented design of its impeller, which allows for fewer restriction points while still providing maximum efficiency. In addition, EH 1200 is highly durable, with officially tested and proven working rates over 20,000 hours and approval by DIN, US Navy, and other certifying bodies. It also includes a number of adjustable features that allow for maximum use including variable-speed operation that utilizes adjustable control settings. Overall, EDWARDS EH1200 is a high-efficiency, low-temperature cryogenic pumping system designed for optimum performance and reliability. Its high-strength brass base material and sealed-in design make it highly resistant to wear, and its energy-efficiency capabilities make it a cost-effective way to transfer large amounts of cold gases and liquids quickly and accurately.