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Original Press Release
Rethinking the Venturi
Press release date: Jun 16, 2014
Engineers in the flow industry seek to find measurement devices that reduce energy losses and are simple to install and maintain. Differential pressure flowmeters, like the one in Fig. 1, meet these expectations extremely well, yet they remain underused by designers. Their accuracy averages to +/-1% of full scale, they result in far less energy loss when compared to other standards (such as the turbine or vortex instruments), and often cost under $500. Why would these devices remain so underused? Simply put, there is a common misconception that a designer must use a contraction in the piping to create a differential pressure. This is simply not true, and I am here to tell you an equally simple method of creating the required pressure drop.
Contractions, such as the venturi tube shown in Fig. 2, can result in circular flow, turbulent vortices, and even present potential issues such as cavitation when used too closely to pumping systems. Fortunately, these issues can be greatly reduced if throttling is achieved in a less abrupt manner. If an effective design is achieved, laminar flow will be maintained and energy losses will be greatly reduced. Still, the industry maintains a distance from this type of flow measurement. To overcome this, designers of these systems must begin utilizing something more efficient than the contraction form of the venturi tube. They must begin to incorporate the expansion or "bulge" tube in their systems.
Creating an expansion in a piping system results in a pressure increase in the larger pipe thanks to Bernoulli’s Principle. This can be seen in Fig. 3 in which a piping system with the same inlet pipe diameter and flow rate as Fig. 2 is analyzed. The color of the flow lines in this system transfer from red to blue, signaling the velocity of the fluid is transferring from high to low. This is directly in accordance with our fundamental fluid mechanics knowledge and allows an engineer to utilize a differential pressure flowmeter with the application of the Bernoulli Principle. This expansion setup has equal accuracy to the contraction form of the venturi, yet results in fewer losses and creates a more uniform laminar flow through the transition between pipe diameters. This design also alleviates any possibilities of other venturi-related issues such as clogging from solids or negative pressures on the outlet end of the expansion.
What is most interesting about this concept is the fact that it has been completely neglected from any engineering program on fluid mechanics. As a result, the standard for these systems continues to be the contraction form of the venturi tube. If the designers of these systems utilize this new concept, they will be presented with systems that are incredibly simple to install and even easier to maintain. This results in lowered costs and ultimately improves the efficiency on all accounts.