![]() MONITORING FLOW IN INDUSTRIAL APPLICATIONS We also offer models that can accommodate bi-directional measurement. We also offer portable and clamp-on instrumentation for short-term installations. KOBOLD also offers a wide variety of technologies to meet the growing demand for instrumentation that does not contain moving parts which are subject to wear, such as: ultrasonic flow meters, magnetic-inductive flow meters, and vortex flow meters. These technologies are characterized by a long service life and high efficiency. Some of our technologies for viscous media include: oval gear flow meters, helical gear flow meters, and special variable area flow meters. We also offer a wide variety of instrumentation that is well-suited for handling viscous media like oil. KOBOLD offers a wide variety of high-quality flow meters, from simple paddle-type switches to high-precision Coriolis mass flow meters. Depending on the application variables and media specifications, different flow meters or flow monitors can be used. We also offer many models of flow transmitters that can both monitor and control flow. KOBOLD offers a variety of flow sensors that can directly determine the flow rate of a gas or a liquid. Our team of expert engineers is always here for you to help you find your KOBOLD solution. With so many models and options, we can find a solution for most applications, even the most demanding ones. ![]() Many models are offered with a wide variety of material choices, and some are available in exotic materials. Our flow instrumentation line offers a wide variety of technologies such as: variable area, ultrasonic, mass flow, thermal dispersion, turbine, electromagnetic, vortex, oval gear, positive displacement, differential pressure, Coriolis, helical or screw gear, rotameter, rotary piston, baffle plate, calorimetric, paddle wheel, and multi-parameter meters. KOBOLD Instruments has developed a wide variety of flow meters, flow regulators, flow indicators, flow switches, flow monitors, and flow sensors. A typical example is the mass flow of abrasive materials such as slurries.Flow Restrictor, Flow Regulator, Balancing Valve Flow Information KOBOLD FLOW INSTRUMENTATION Together with an input from a flow meter, the output signal can be used to calculate the mass flow from the measured density. The higher the density of the conveyed liquid, the less radiation received. The sensor on the opposite side of the pipe measures the intensity of the incoming radiation. In this case, too, a source holder with a slightly radioactive isotope emitting gamma rays is deployed, mounted on one side of the pipe. And, radiometry can also be used to measure mass flow in pipelines. These benefits make it ideal for achieving the goal of this application: reliable and exact determination of the conveyed quantity of solids. The simple installation of the measuring system, for example around the frame of a conveyor belt system, as well as the simple setup and commissioning, are the other main advantages. One big advantage of radiometry is that it is wear and maintenance free, due to being a non-contact measuring method. Because gamma rays are attenuated as they pass through matter, the sensor can calculate the mass flow based on the change in intensity in combination with the belt speed. The scintillator of the sensor converts the gamma radiation into signals, the number of which is recorded and evaluated. The sensor, located on the opposite side of the conveyor belt, picks up this radiation. The process begins with an isotope emitting focussed gamma radiation. radiation-based measurement, is used, for example, to measure mass flow on conveyor belts . The measuring principle of radiometry, i.e.
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