Vortex Flow Measurement
Uniquely designed for easy installation, reduced maintenance and superior reliability in gas, liquid and steam flows.
Vortex flow meters offer many advantages for flow measurement including easy installation without impulse lines, no moving parts to maintain or repair, less leak potential and a wide flow turndown range. Vortex meters also offer very low power consumption, allowing for use in remote areas.
Additionally, Vortex meters are unique in that they can accommodate liquids, gasses, steam and corrosive applications. Vortex flow meters are also able to withstand high process pressures and temperatures.
Vortex flow meters measure fluid velocity using a principle of operation referred to as the von Kármán effect, which states that when flow passes by a bluff body, a repeating pattern of swirling vortices is generated.
In a Vortex flow meter, an obstruction in the flow path, often referred to as a shedder bar, serves as the bluff body. The shedder bar causes process fluid to separate and form areas of alternating differential pressure known as vortices around the back side of the shedder bar.
The vortices cause a small sensing element either behind or within the shedder bar to oscillate back and forth at a specific frequency. The velocity of the working fluid is directly proportional to this frequency of the vortices generated by the shedder bar’s unique geometry. With the known cross sectional area of the pipe, volumetric flow can be calculated.
Often Vortex flow meters will also utilize a pressure and/or temperature sensor to achieve a compensated mass flow measurement.
Vortex flow meters are well suited for a variety of applications across a wide range of industries including oil and gas, refining, chemical and petrochemical, and food and beverage. Vortex flow meters also excel in steam-related applications including steam injection and steam measurement for district energy systems and industrial plants.
For safety-related measurement in SIS applications, dual and quad Vortex flow meters with redundant, independent sensors and electronics are critical for the prevention of common modes of failure and spurious shutdowns. The non-clog, leak-free Vortex flow meter design is ideal in hazardous chemical applications, especially where fugitive emissions are a concern.
The Rosemount™ 8800 MultiVariable Vortex Meter automatically adjusts for changes in density, making it easy to accurately measure mass and corrected volume in steam and liquid applications. With safety and reliability being at the pinnacle of our proprietary design, the all-cast, gasket- free, sealed meter body eliminates leak points to keep your operations up and running. No moving parts or need to install impulse lines means fewer process upsets and smoother operations for your plant.
The integrated, removable temperature sensor is isolated from the process and separate from the Vortex flow sensor.
Not only does the shedder bar serve as an obstruction in the flow path, it also serves as the thermowell for the integrated temperature sensor. This eliminates the need for a separate temperature measurement point. The temperature sensor provides reliable temperature measurement with excellent vibration immunity and wide temperature measurement range.
The 8800 MultiVariable Vortex can provide a pressure compensated saturated or superheated mass flow measurement by receiving a pressure measurement from a HART pressure device. The 8800 MultiVariable Vortex paired with the industry-leading Rosemount 3051S Pressure Transmitter delivers a highly accurate steam mass flow reading.
Steam applications are known for their relentless demands and inherent safety risks. The sealed all-cast, gasket-free design of the Rosemount MultiVariable Vortex (right) eliminates leaks, reducing steam safety concerns and maintenance issues experienced using traditional vortex technologies (left) that can cause leaking and plugging. Pressure and Temperature compensation capability provides accurate and reliable calculated mass flow measurement for saturated and superheated steam applications.
Detect superheat steam degradation to protect your equipment from wear and tear and get insights into your superheat steam application. A custom alarm level can be set based on your process requirements to alert you when the temperature of your superheat steam (green line) has degraded to a specified temperature (yellow line) above the saturation temperature (blue line).
Rosemount™ 8800 MultiVariable and Quad Vortex Flow Meters: A superior solution for compensated steam and redundant flow measurement
Steam applications are well known for their relentless demands and their inherent safety risks. With unparalleled features like the ability to perform maintenance any time without shutting down the process and the ability to compensate for changing process condi-tions, the Rosemount 8800 Vortex Flow Meter knows how to go to work for you and your operations.
The powerful combination of the Rosemount 8800 Multivariable Vortex Flow Meter with an integrated temperature sensor paired with a Rosemount 3051S Pressure Transmitter delivers reliable pressure and temperature compensation for your mass flow measure-ments in superheated steam applications.
The Rosemount 8800 Quad Vortex is designed for SIS applications and provides the ut-most reliability to guard against spurious trips using two out of three voting and includes a fourth integrated transmitter for process control. The Quad Vortex removes installation complexity in an elegant solution you can quickly bolt in, wire up, and go.
Introduction to Emerson's Rosemount Vortex Flow Meters: An effective, reliable solution for utility flow measurement
Regardless of your operational demands, from clean fluids to the most aggressive flows, Emerson's Rosemount™ 8600 and 8800 Vortex Flow Meters provide the widest range of measurement solutions for your process for steam, gas, and liquid applications to meet safety, reliability, and measurement accuracy needs.