![]() Each rotor will typically produce 6 bar enabling pressures up to 48 bar to be achieved through its modular design. ![]() Stators contain cavities, and the rotor pushes fluids through the cavities in a slow rotating fashion.Ī pumps pressure generating ability will depend on the number of cavities within the pump, with high pressure designs often consisting of more than one stator and rotor. The output shaft from the gearbox connects to a rotor via a universal pin joint which rotates a metallic rotor within a rubber stator. The design consists of a motor at the drive end which is connected to a gearbox as pc pumps operate at low rpm compared to centrifugal pumps. What is the design of a Progressing cavity pump and Working Principle? This technology is most suited for fluids more viscous than 5cst. This technology delivers one of the highest flow and pressures available from a positive displacement pump being up to 600M³H and 48bar, with efficiency ranging from 55% to 75%. The volume of liquid pumped is proportional to speed providing a linear predictable pumping rate across a range of pressures. They handle not only viscous fluids and solids but also gassing or multiphase liquids containing gas slugs typical during crude oil extraction. Progressive cavity pumps, also known as PC pumps, progressing cavity pumps, eccentric screw pump and mono pumps are a type of rotary positive displacement pump designed for the conveying of liquids and sludges from 1cst to 1Million.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |