SPXFLOW products

The development of sustainable energy savings compressed air treatment solutions is the driving principle behind Pneumatic Products product designs. The PPF Series provides the perfect balance between high performance filtration and low pressure drop. Patented filter elements (US 7,618,480 B2) maintain low pressure drop and long service life. By minimizing resistance to flow, energy costs are significantly reduced. The example demonstrates the effect of pressure drop on operating costs.

CeraClean removes solids, colloids and high molecular weight interfering substances from dirty samples. CeraClean is used with the Bran+Luebbe Monitor 90 S and DiaMon, delivering a continuous supply of purified sample for analysis.

The Automatic de-aerator for diesel and liquid biodiesel. The Tigerloop Auto 2 is designed to be compatible not only with diesel produced according to EN 590, but also biodiesel produced according to EN 14214 and HVO diesel (EN15940). The Tigerloop Auto 2 models are also designed to meet new demands on energy savings, environmental and operational safety.

The capacity of the butter making machines ranges from 1,100 lbs. to 30,500 lbs. (500 kg to 14,000 kg) butter/h.

In traditional separator designs, the motor and centrifuge shaft are discrete units that must be connected to transfer energy from the motor to the shaft. Traditionally, this connection is indirect, in that an intervening mechanism makes the connection. In one common approach, a system of gears translates the motion from the rotor to the shaft.  Another approach uses a drive belt to transmit energy. While both geared and belt-driven systems are highly reliable, having so many moving parts contributes to loss of energy during transmission. Direct drive systems accomplish the transmission with fewer parts as the motor shaft becomes the centrifuge shaft. The motor mounts directly beneath the bowl and its single shaft extends directly into the bowl. Driving the centrifuge directly from the motor minimizes energy lost in the process, enables more compact designs and reduces the maintenance that gear-or belt-driven systems might require otherwise.