Discflo Disc Pump Technology

Successive layers of fluid between two discs (the Discpac) travel faster towards the center, relative to the rotating discs, and are stationary on the disc surfaces, acting as a 'boundary layer'

Disc Pump Technology
Discflo's Disc Pump is based on a non-contact, non-impingement technology. The operating principle behind the Disc Pump is boundary layer-viscous drag. Its application to pumps commercially is new, but it has been used widely in fluid engineering for over 100 years. A common example of this principle is the phenomenon of pressure drop or friction losses through a pipe system.

Examination of the cross-section of a pipe under laminar (non-turbulent) flow conditions shows that layers of liquid travel at different velocities. The stationary pipe exerts a 'drag' force on the flowing liquid. The velocity of the layer adjacent to the pipe is zero, an effect known as 'boundary layer'. Successive latyers flow increasingly fast with the highest velocities at the center point between the pipe walls.

Discpac impeller
This is essentially the same boundary layer-viscous drag principle that is used by the Disc Pump. The pump 'impeller' comprises a series of parallel discs called the Discpac. As the discs rotate, they create drag and an initial boundary layer of fluid adheres to their surfaces as flow enters the pump.

As the discs rotate, the boundary layer formed on the discs surfaces is stationary, relative to the discs. Similarly the fluid travels iincreasingly fast towards the center of the gap between the discs, relative to the discs. Kinetic energy is transferred through layers of fluid molecules between the discs, generating velocity and pressure gradients across the Discpac. This creates a powerful force that 'pulls' the product through the pump in a smooth, pulsation-free flow.

Advantages over centrifugal and PC pumps
Because the system does not use pushing or impingement to move product through the pump, it has some compelling advantages over traditional impeller technologies and progressive cavity devices. This is especially true for handling difficult fluids, such as abrasive, viscous, high solids, large solids or air-entrained fluids, and for shear sensitive fluids and emulsions.


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.: Distributor opportunities Discflo is always looking for motivated pump sales companies to represent its product lines in various industries and regions throughout the world. We are particularly interested in companies with oil industry experience. Call the Sales Department at 1-800-DISCFLO (1-800-347-2356) or cli