User:John R. Brews/Coriolis force

From Citizendium
< User:John R. Brews
Revision as of 10:33, 18 March 2011 by imported>John R. Brews (→‎Coriolis Flowmeter)
Jump to navigation Jump to search

Tides


Coriolis Flowmeter

(PD) Image: John R. Brews
A fluid forced through a rocking tube experiences a Coriolis acceleration.

The Coriolis force is used to measure mass flows in fluid systems.[1] As shown in the figure, the fluid flows into a U-shaped tube with velocity v and exits with equal but oppositely directed velocity. The tube is rocked, and at a particular moment appears to be rotating along a line joining its openings, as shown. From the viewpoint of the fluid, it experiences a Coriolis acceleration normal to the plane of the tube, which has opposite signs on the two legs of the tube. An element of fluid with mass m experiences a Coriolis force:

where Ω is the vector angular rate of rotation as found using the right-hand rule and v is the fluid velocity. Idealizing the tube as having right-angle corners at its base, the Coriolis force is the same along the entire leg of the tube, and is zero at the base where the velocity is parallel to the rotation Ω.

As a result of the Coriolis force, the tube is subject to a force couple twisting it about its vertical axis of symmetry. By detecting this torque, the speed of mass flow in the tube can be measured. For example, the torque can be measured by observing the angle of twist of the tube which, like a spring, resists turning due to its mechanical properties.

Notes

  1. For an analysis, see for example Douglas O. J. DeSá (2001). “The Coriolis mass flowmeter”, Instrumentation fundamentals for process control. Taylor & Francis, pp. 20 ff. ISBN 1560329017.