Altech Technology Systems - System REITHER

product closeup - System REITHER





	System REITHER System BAYER-REITHER Conventional Controls











	System REITHER Benefits of Venturi Scrubbing Design Principles Typical Applications Performance Characteristics


	*System REITHER* Design Principles

Figure 1 - Venturi Throat Design

New advances in throat design has led to significant improvements in removal efficiencies, the ability to respond to variability in flow, and the ability to remove very small particles, aerosols and some gases.

The principle of the design is illustrated in Figure 1 where the gas stream flows through the duct, passes by the water spray heads, and is forced by two outside cylinders into the middle region. By adding a third cylindrical displacer on a lifting rod, a double split is formed creating two venturi throats. The vertical movement of the displacer can vary the split to the optimum width for maximum efficiency even during variations in flow.

There are several important innovations with the System REITHER™ approach. The scrubbing solution is sprayed at low pressure but, due to the high sheer effect of the gas stream in the throat - velocities between 50 and 150 m/sec. - the liquid aerosols are further atomized into very fine drops or mists. This is the key to the performance of this design. The high gas acceleration in the throat, and the high relative velocity between particles and scrubbing aerosols provides for excellent opportunity for contact and, therefore, separation efficiencies with this venturi scrubber.

System REITHER
Benefits of Venturi Scrubbing
Design Principles
Typical Applications for System REITHER
Performance Characteristics

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