The TRIRO pump is of the positive displacement axial flow screw type with only three moving parts - a power rotor and two idler rotors.

The TRIRO flow principle

These three rotors (hence the brand name TRIRO) have accurately machined precisely intermeshing threads which enfold the liquid being pumped and act as seals in relation to each other and to the pump body or sleeve in which they rotate.

The power rotor is connected directly to the prime mover (electric motor, diesel engine, steam turbine, etc) and as it rotates the idlers turn due to the action of the pumped liquid. This action is in effect, that of a piston moving continuously in one direction, providing a smooth uniform flow without pulsations.

The idlers perform no work, so no gears are required to transmit power between the screws. As radial forces on the idlers are taken up by the surrounding cylindrical surfaces, no other bearings are required. Axial forces on the screwset, caused by the pressure differential between inlet and outlet are balanced hydraulically within the pump.

The chamber formed between two adjacent threads and the bore is known as a "closure" it is the closure which contains the liquid as it moves through the pump, as the screwset rotates the unfolding closures in the suction chamber.

Hydraulic Balance

Create low pressure(partial vacuums) areas into which liquid is forced to flow by the pressure differential between this low pressure area and the absolute pressure on the liquid at the pump inlet. At the discharge end, the folding closures force the liquid into the discharge pipe against the natural resistance(known as discharge pressure) created by the static head and discharge pipe system frictional losses.

The discharge or back pressure forces a certain portion of liquid to pass back along the internal clearances from discharge to suction. This is a characteristic of all rotary positive displacement pumps. The very fine working clearances of a TRIRO pump reduces this "leakage" or "slip" to a minimum thus maximising volumetric efficency.

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