Usually ranges from 50 to 150 cm of water (20 to 60 inches) for typical industrial applications. It is a primary indicator of performance and operating cost. Liquid-to-Gas Ratio (

The core of the design process focuses on determining the throat velocity and the liquid-to-gas (L/G) ratio. High throat velocities increase the relative velocity between the gas and liquid droplets, which enhances particle collection through inertial impaction. However, this also significantly increases the pressure drop across the system. Key Calculation Parameters

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) and particle collection efficiency (often targeting >99%).

In the world of industrial air pollution control, the remains one of the most efficient devices for removing particulate matter (PM) from high-temperature, corrosive, or sticky gas streams. Unlike baghouses or electrostatic precipitators, Venturi scrubbers handle variable loads and sticky particles with relative ease. However, their efficiency hinges on one critical factor: precision in design engineering .