![]() When the medium flows through, thermal energy is extracted from the heated temperature sensor, and the temperature difference changes depending on the flow velocity. When the medium is stationary, a constant temperature difference ∆T between heated and unheated state is established. The operating principle of the switch FTS is based on a temperature sensor attached to the sensor tip, which is periodically heated by a heating element. Determine your key requirements and then contact Anderson-Negele Technical service to receive a quotation on the appropriate product for your application. Micro Motion is globally recognized as the leader in reliable, high performance coriolis measurement technology. What is Coriolis Mass Flow and Density Measurement?Īnderson-Negele offers Micro Motion© coriolis mass flow meters for applications that require the unique solution that direct mass flow measurement offers. This measurement technology is also suitable for non-conductive, aqueous media such as filtered fruit juice or beer, alcohols, light oils, salt solutions, cleaning media, and acids, but also process water, demineralized water, and WFI. This technology with non-contact pulse measurement is the reliable, precise, and economical alternative to mass flow sensors or electromagnetic units. Which products are suitable for turbines? The rotating rotor interacts with this field to create an induction current, which can be precisely measured and output by the probe. A signal probe generates an electromagnetic field via an oscillating circuit. A turbine sits directly in the liquid flow and is set in rotation by its rotor blades through the flow movement. This measuring principle works with a non-contact pulse measurement. What is the electromagnetic flow measurement? Scroll down to find our details on each of these technologies. What are the available measuring methods?Įssentially, the Anderson-Negele product line offers four measuring principles for the flow measurement of liquids: electromagnetic flow measurement, turbine flow measurement, Coriolis Mass Flow and Density measurement and Calorimatric Flow Switches. With these devices, such malfunctions are immediately detected, and countermeasures can be initiated. Pumps may run dry, CIP processes may not run according to specifications, mixing, and filling processes may be disrupted, all of which can lead to high plant or product damage. If a medium does not flow in a process due to a system error, this can cause significant damage. These monitoring devices are primarily used to avoid costs by minimizing risks. The specified quantities of the valuable resources are precisely adhered to so that the final product can be produced in an optimal and reproducible way in precisely the desired quality. Indirectly a cost reduction is achieved by recipe optimization and improved control of the blending process. Measuring the quantity or volume with the highest accuracy can directly save costs due to loss prevention and better use of resources. Ultrasonic flow switches for all media with turbidity > 1 NTU or particles > 50 μm.Turbine flow meters for all aqueous media, regardless of conductivity.Electromagnetic flow meters for media with minimum conductivity >5 μS/cm.With various technologies, Anderson-Negele devices offer a suitable measuring system for every application, every process, and every fluid: A possible malfunction of a pump, a closed valve, or a misdirected medium is reliably detected and signaled. high-precision control of bottling linesįlow switches are used in almost all production plants to monitor the plant’s technical safety and the correct operation of the processes.monitoring of production processes in breweries or CIP systems. ![]()
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |