Wellingborough firm KROHNE opens its doors as part of National Manufacturing Day 2024
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00:00So, in this example, we have a dual straight Coriolis meter, ok?
00:11Just to explain a bit more clear, the fluid that we are going to measure,
00:16whether it's water, orange juice, oil, whatever it is,
00:19it will go through these measuring tubes, ok?
00:24So, we have a driver in the middle, which is here.
00:30And this driver will create a vibration between the two tubes.
00:34And I'm going to show you a few examples of how it works.
00:38So we are creating a vibration between these two tubes.
00:41When the flow starts, this flow will create a force in the measuring tubes, ok?
00:51And if we take Newton's third law, to each action there is an equal and opposite reaction, right?
01:01So, to explain it so we can see it even more clear.
01:07In the Coriolis meter, as I said, we've got the driver in the middle that creates the vibration.
01:14We've got one sensor before and one sensor after, ok?
01:18The distance between the driver and the sensor
01:21are the same as the distance between this driver and the sensor B.
01:25So, imagine we are recording this vibration in the sensors.
01:37And then, like, the same way you are recording an earthquake,
01:41you are checking this vibration.
01:43So, this sensor A, up and down,
01:45it will leave a sinusoidal curve, up and down.
01:48A sensor B will also be leaving a sinusoidal curve, up and down, as you see there.
01:55In this case, because there is no flow,
01:58nothing is creating a force in the measuring tubes,
02:01and the two sinusoidal curves are overlapping.