Flow Sensor
VORTORQ® Flow sensors are essential in the oil and gas industry for measuring the flow of liquids and gases through pipelines. Their high precision, stability, adaptability, simple design, and long lifespan make them crucial for monitoring and control. With modernization, their use has expanded significantly across various sectors.
Hydraulic systems have also revolutionized numerous industries. They are commonly found in construction machinery like excavators and bulldozers, and have been adapted for applications such as sun tracking systems, wave simulators, ship driving simulators, earthquake simulators, rocket launch devices, aerospace simulations, high-rise building seismic protection, and emergency braking systems. In essence, hydraulics are versatile and applicable in any engineering field involving mechanical equipment.
FTB200-Turbine Flow Meters
Over view
The FTB200 series flowmeter contains a magnetic detector and a magnetically permeable rotor (impeller). The flow of the medium drives the rotor (impeller) to turn. The rotational speed of the rotor (impeller) is proportional to the flow velocity of the medium Magnetic The detector detects the rotational speed of the rotor and converts it into a standard industrial electrical signal for output or display.
Application
- Petrochemical/energy industry
- Hydraulic /lubrication system
- Water treatment
- Oil / gas industry
- Experimental equipment
- Test systems
FTB400-Turbine Flow Meters
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FTB400 can be used for the measurement of medium and low viscosity media, light fuel oil, hydraulic oil, lubricating oil, etc. The optional viscosity compensation function makes FTB400 suitable for media whose viscosity changes with temperature. The impeller of FTB400 series products has more blades than other series products, up to 12 pieces, so it has faster response speed and higher resolution.
Application
- Petrochemical/energy industry
- Hydraulic /lubrication system
- Water treatment
- Oil/Gas Industry
- Experimental equipment
- Test Bench
FMI200-Mini Electromagnetic Flow Meters
Over view
According to Faraday’s principle of electromagnetic induction when a conductor passes vertically through magnetic field B, it will induce a voltage. U In the measurement of the flowmeter, the moving conductor is a flowing conducting medium, and the magnetic field B is emitted from the direction perpendicular to the flowing medium. The induced electromotive force U on the two electrodes E1 and E2 is directly proportional to the velocity V of the medium.
Application
Circulating water detection
Coolant monitoring
Other conducting liquid monitoring
