Sundareswaran Iyalunaidu’s Post

Question: When selecting a flowmeter for a high-viscosity fluid application, which flow measurement technology is most suitable to ensure accurate readings with minimal pressure drop? A) Turbine Flowmeter B) Ultrasonic Flowmeter C) Coriolis Flowmeter D) Differential Pressure Flowmeter Refer the below link for the Answer Streamlining Your Flowmeter Selection Process: Tips and Insights - https://lnkd.in/gATJBi85

Question: When selecting a flowmeter for a high-viscosity fluid application, which flow measurement technology is most suitable to ensure accurate readings with minimal pressure drop? A) Turbine Flowmeter B) Ultrasonic Flowmeter C) Coriolis Flowmeter D) Differential Pressure Flowmeter Refer the below link for the Answer Streamlining Your Flowmeter Selection Process: Tips and Insights - https://lnkd.in/gdWEqXpj

Question: When selecting a flowmeter for a high-viscosity fluid application, which flow measurement technology is most suitable to ensure accurate readings with minimal pressure drop? A) Turbine Flowmeter B) Ultrasonic Flowmeter C) Coriolis Flowmeter D) Differential Pressure Flowmeter Refer the below link for the Answer Streamlining Your Flowmeter Selection Process: Tips and Insights - https://lnkd.in/gdWEqXpj

Let's shift our focus to the comparisons between ball valves and needle valves. Our latest blog post compares these two valve types, exploring their pros and cons for instrumentation and control systems of all sizes. We take a closer look at the nuances of each valve, understanding how they offer dynamic regulation and adapt to changing conditions effortlessly. From rapid actuation to precise metering, we'll examine the varying capabilities of ball valves and needle valves, uncovering where each excels in flow control applications. Additionally, we emphasize performance optimization through our comprehensive range of instrumentation valves and fittings, enhancing flow control solutions. Read the full article, https://lnkd.in/gRS8AzVU

Gas Collector and Exhaust Valve Upstream for eliminating bubbles at a magnetic flowmeter. Purpose: Gas Collector: This device is designed to capture and collect gas bubbles from the liquid before it reaches the flow meter. Exhaust Valve: This valve allows the collected gas to be safely vented out of the system. How They Work: Gas Collector: Installed upstream of the electromagnetic flow meter. As the liquid flows through the gas collector, any gas bubbles present in the liquid are captured and separated from the liquid stream. This helps in preventing large bubbles from reaching the flow meter, which could otherwise cause measurement errors. Exhaust Valve: Positioned after the gas collector. It releases the collected gas from the system, ensuring that only bubble-free liquid continues to flow towards the flow meter. This process helps maintain the accuracy and stability of the flow measurements. Benefits: Improved Accuracy: By removing gas bubbles, the flow meter can provide more accurate and stable readings. Reduced Maintenance: Prevents the need for frequent recalibration or maintenance due to bubble-induced errors. Versatility: Especially useful in systems where changing the installation position of the flow meter is not feasible. Installation Considerations: Ensure the gas collector and exhaust valve are properly sized for the flow rate and pipe diameter. Regularly check and maintain the exhaust valve to ensure it is functioning correctly. hashtag #ABB #flowmeter #instrumentation #Measurement

Electromagnetic flow meters is a volumetric flow meter that measure the voltage created when conductive liquids move through a magnetic field. It can measure liquid such as sewage, paper pulp, slurry and mineral slurry which has an electrical conductivity greater than 5 μS/cm. In order to obtain consistent and accurate flow measurement, it is important to understand and meet the installation requirements. Here are some installation requirements and guidelines. #instrumentation #wastewatertreatment #waterindustry

-Understanding Control Valves super simple explanation: Did you know that control valves play a vital role in regulating fluid flow in various industries, including oil and gas, chemical processing, power generation, and water treatment? Training Link: https://lnkd.in/dXbkUAPf -A control valve consists of: 1. Valve Body: The main housing containing the fluid flow path 2. Actuator: Moves the valve stem to open or close the valve 3. Stem: Connects the actuator to the valve plug, controlling its movement 4. Valve Plug: Regulates fluid flow by opening or closing the flow path 5. Positioner: Compares the valve's actual position to the desired position, adjusting the actuator accordingly 6. Sensors: Monitors parameters like pressure, temperature, or flow rate (optional) The control valve operates by receiving a signal, comparing it to the actual position, and adjusting the actuator to match the desired position, ultimately regulating fluid flow. By maintaining process stability, efficiency, and safety, control valves are essential for smooth operations in various industries. Share your experiences with control valves in the comments below! #automation #instrumentation #controlvalve #processcontrol hashtag #industrialautomation #fluidcontrol

Measuring winding resistance helps to assess the condition of the transformer windings and internal connections. This is one of many tests that help provide useful insight into the condition of your transformer. Our EnerG Test technicians can also perform transformer insulation testing, turns ratio testing, power factor testing, oil analysis, dissolved gas analysis, and other tests, diagnostics, and inspections to help prolong the life of your transformer. #transformertesting #maintenance #neta #technicians #empoweringpeaceofmind

#globecore_technology Introducing the TOR-8 Instrument - Your Essential Tool in The Transformer Oil Degassing Processes! TOR-8 instrument is used in the processes of removing dissolved gasses from insulating oils (oil degassing) in degassing machines. Its main purpose is to facilitate measuring the efficiency of the degassing procedures performed by these machines. The use of this instrument makes it possible to accurately evaluate the residual gas content of the oil. Meet TOR-8: •    A key player in monitoring dissolved gases from insulating oils •    Enhances the efficiency of degassing procedures in machines •    Accurately evaluates the gas removal rate for oil Ideal for: •    Installation, repair, and operation entities in transformer oil processing Advantages of TOR-8: •    Accurate measurement of residual gas content •    Reliable and consistent operation •    Convenient and durable housing •    Quick measuring process, up to 10 minutes •    Integrated thermal printer for result documentation Make Your Transformer Oil Processing Efficient and Reliable with TOR-8! #transformer #electricalengineering #power #energy #electricity

"Boosting Efficiency with Compressors! During my previous role, I developed this comprehensive presentation on compressors, covering: Types (Centrifugal, Reciprocating, Screw) Working Principles (Compression method) Applications (Oil & Gas, Power, Industrial) Design considerations I'd love to hear your thoughts and experiences with compressors! #Compressors #StressEngineering #MechanicalEngineering #Efficiency #Innovation"