Averaging pitot probe
First Claim
1. A flowmeter in combination with a pipe conveying gas travelling along the pipe at a speed in the range of 0.3 to 10.0 meters/second and in which pipe said gas is at a pressure at or near to atmospheric pressure, said flowmeter comprising(i) an averaging pitotprobe disposed along substantially an internal width W of said pipe, said probe comprising a first tube and a second tube disposed alongside one another and each being closed at one end, the positions of said closed ends coinciding, the other end of each said tube being arranged for there to be a gas flow between the interior of the tube and a gas flow sensor attached to said probe, externally said tubes having substantially the same shape and dimensions, internally said tubes having substantially the same shape and dimensions, each said tube having a wall with at least one hole through said wall of the tube, the number of said holes in the first said tube being the same as the number of holes in the second said tube, all said holes being of substantially the same size and shape, each said hole being at a distance from said closed ends which distance is less than said dimension W, said holes being disposed such that the distance any said hole in the first tube is from the closed end thereof is the same as the distance that a said hole in the wall of the second tube is from the closed end of said second tube such that the position of the or each said hole in the first tube is the same as the position of the or a corresponding said hole in the second tube, each said hole having an entrance thereto at the exterior of the tube in which said hole is provided, the entrance to the or each said hole in said first tube facing in a direction opposite to that in which the entrance to the or the each said hole in the second tube faces, and thus with respect to an imaginary plane between the tubes the first tube with its hole or holes is symmertical with the second tube with its hole or holes, each said tube having an internal cross-sectional area which is substantially constant throughout the length of the said tube, the cross-sectional area of the or each said hole in a said tube being substantially constant along the length of the said hole from the exterior to the interior of the tube, and the ratio of the said internal cross-sectional area of a said tube to the said internal cross-sectional area of the or each said hole in the tube being at least 9:
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1 Assignment
0 Petitions
Accused Products
Abstract
To measure speed of gas flow along a pipe a flowmeter is used comprising a gas flow sensor connected by tubing with an averaging pitot probe formed by first and second tubes of circular cross-section disposed side by side and closed at their one and the same ends and mounted in a gas tight manner in the wall of the pipe. The two tubes are identical in shape and dimensions and each has four circular holes through its tube wall. All the holes are of the same shape and size, and each has a diameter in the range 0.4 mm to 1.00 mm. The internal diameter of each tube is at least 1.59 mm, and the ratio of the cross-sectional area of each tube to the cross-sectional area of each hole is at least 9:1. The positions of the holes in one tube are identical to the positions of the holes in the other tube except that the holes in the first tube face directly upstream with respect to the gas flow whilst the holes in the second tube face directly downstream. With respect to an imaginary plane P between the tubes, the first tube is symmetrical with the second tube. The speed of gas flow to be measured is preferably in the range of 0.3 to 10.00 m/s, and the gas is at or about atomspheric pressure.
23 Citations
18 Claims
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1. A flowmeter in combination with a pipe conveying gas travelling along the pipe at a speed in the range of 0.3 to 10.0 meters/second and in which pipe said gas is at a pressure at or near to atmospheric pressure, said flowmeter comprising
(i) an averaging pitotprobe disposed along substantially an internal width W of said pipe, said probe comprising a first tube and a second tube disposed alongside one another and each being closed at one end, the positions of said closed ends coinciding, the other end of each said tube being arranged for there to be a gas flow between the interior of the tube and a gas flow sensor attached to said probe, externally said tubes having substantially the same shape and dimensions, internally said tubes having substantially the same shape and dimensions, each said tube having a wall with at least one hole through said wall of the tube, the number of said holes in the first said tube being the same as the number of holes in the second said tube, all said holes being of substantially the same size and shape, each said hole being at a distance from said closed ends which distance is less than said dimension W, said holes being disposed such that the distance any said hole in the first tube is from the closed end thereof is the same as the distance that a said hole in the wall of the second tube is from the closed end of said second tube such that the position of the or each said hole in the first tube is the same as the position of the or a corresponding said hole in the second tube, each said hole having an entrance thereto at the exterior of the tube in which said hole is provided, the entrance to the or each said hole in said first tube facing in a direction opposite to that in which the entrance to the or the each said hole in the second tube faces, and thus with respect to an imaginary plane between the tubes the first tube with its hole or holes is symmertical with the second tube with its hole or holes, each said tube having an internal cross-sectional area which is substantially constant throughout the length of the said tube, the cross-sectional area of the or each said hole in a said tube being substantially constant along the length of the said hole from the exterior to the interior of the tube, and the ratio of the said internal cross-sectional area of a said tube to the said internal cross-sectional area of the or each said hole in the tube being at least 9: - 1, and
(ii) said flow sensor comprising wall means defining passage means having first and second opposite ends, the first said end of the said passage means being connected by tubing to said other end of the first said tube and the second said end of the said passage means being connected by tubing to said other end of the second said tube, gas flow sensing means provided in said passage means for observing the speed of flow of gas along the said passage means from one said tube to the other said tube, said gas flow sensing means comprising at least one thermistor exposed to the effect of the flow of gas along said passage means, and said passage means having a constriction at the location of the sensing means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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Specification