WE SPECIALIZE IN ALL TYPES OF VALVE REPAIR Gear Box Inspect

The Ultralite's primary function is to verify the set pressure of safety and safety relief valves in-line, without having to shut down a system or unit. External force applied to the valve spindle, coupled with system pressure and a "true" effective area, are acquired, processed, stored, and exported or printed. The end result is the valve set point. This is derived from the following equation: Ps = F/Ae + Pi

Where the "Ps" is the set pressure, "F" is the force required to overcome seating force, "Ae" is the effective area, and "Pi" is the inlet pressure at the time of test. The Ultralite has in its database effective areas for most PRV types and configurations. Force and inlet pressure are measured and brought into the microprocessor utilizing high-resolution data acquisition and precision transducers calibrated to 0.1%. Static inlet pressure must be present to perform the test.

The Ultralite's primary function is to verify the set pressure of safety and safety relief valves in-line, without having to shut down a system or unit. External force applied to the valve spindle, coupled with system pressure and a "true" effective area, are acquired, processed, stored, and exported or printed. The end result is the valve set point. This is derived from the following equation: Ps = F/Ae + Pi

Where the "Ps" is the set pressure, "F" is the force required to overcome seating force, "Ae" is the effective area, and "Pi" is the inlet pressure at the time of test. The Ultralite has in its database effective areas for most PRV types and configurations. Force and inlet pressure are measured and brought into the microprocessor utilizing high-resolution data acquisition and precision transducers calibrated to 0.1%. Static inlet pressure must be present to perform the test.

The Ultralite's primary function is to verify the set pressure of safety and safety relief valves in-line, without having to shut down a system or unit. External force applied to the valve spindle, coupled with system pressure and a "true" effective area, are acquired, processed, stored, and exported or printed. The end result is the valve set point. This is derived from the following equation: Ps = F/Ae + Pi

Where the "Ps" is the set pressure, "F" is the force required to overcome seating force, "Ae" is the effective area, and "Pi" is the inlet pressure at the time of test. The Ultralite has in its database effective areas for most PRV types and configurations. Force and inlet pressure are measured and brought into the microprocessor utilizing high-resolution data acquisition and precision transducers calibrated to 0.1%. Static inlet pressure must be present to perform the test.