Drain flowrate measurement
First Claim
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1. A method for measuring flowrate of a stream discharged from a drain in a vessel comprising:
- imaging said stream;
measuring a diameter of said stream image;
measuring differential pressure above and below said stream inside and outside said vessel, respectively;
measuring a height of said stream relative to a reference section thereof at said measured diameter, and calculating said flowrate based on said measured diameter and velocity of said stream at said reference section, and said velocity is calculated based on said differential pressure and pressure head above said reference section including said stream height thereabove.
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Abstract
The flowrate of a stream discharged from a drain in a vessel is measured by imaging the stream, measuring a diameter of the stream image, and calculating the flowrate based on the measured diameter. A video camera may be aimed below the drain for imaging the stream. A computer is joined to the camera for measuring the diameter of the stream and calculating a corresponding flowrate therefor. Either the pressure head above the drain or the profile of the stream below the drain may be used in calculating the discharge stream flowrate
24 Citations
7 Claims
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1. A method for measuring flowrate of a stream discharged from a drain in a vessel comprising:
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imaging said stream;
measuring a diameter of said stream image;
measuring differential pressure above and below said stream inside and outside said vessel, respectively;
measuring a height of said stream relative to a reference section thereof at said measured diameter, and calculating said flowrate based on said measured diameter and velocity of said stream at said reference section, and said velocity is calculated based on said differential pressure and pressure head above said reference section including said stream height thereabove. - View Dependent Claims (2, 3)
measuring two of said diameters of said stream image spaced apart from each other by said measured height; and
calculating said flowrate based on said two measured diameters and measured height.
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3. A method according to claim 1 wherein said vessel is an electroslag refining crucible, and said stream is molten metal refined therein, and further comprising controlling said flowrate in a feedback closed-loop.
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4. An apparatus for electroslag refining an ingot electrode comprising:
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a crucible for receiving said electrode, and having a bottom drain for discharging a molten metal stream as said electrode is melted and refined;
a video camera aimed below said drain for imaging said stream;
means for measuring differential pressure above and below said stream inside and outside said crucible, respectively;
means for measuring a height of said stream above a reference section at said measure diameter; and
a computer operatively joined to said camera and configured for measuring a diameter of said stream image, and calculating a flowrate based on said measured diameter and velocity of said stream at said reference section, and said velocity is calculated based on said differential pressure and pressure head above said reference section including said stream height thereabove. - View Dependent Claims (5)
measuring two of said diameters of said stream image spaced apart from each other by said measured height; and
calculating said flowrate based on said two measured diameters and measured height.
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6. A method for measuring flowrate of a stream discharged from a drain in a vessel, comprising:
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imaging said stream discharged from a drain in a vessel;
measuring inclination angle of said stream image at said reference section;
measuring horizontal offset of said stream image at said measured height below said reference section;
measuring a height of said stream relative to a reference section thereof at said measured diameter, and calculating said flowrate based on said measured diameter, height, offset, and angle.
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7. An apparatus for electroslag refining an ingot electrode comprising:
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a crucible for receiving said electrode, and having a bottom inclined drain for discharging a molten metal stream both horizontally and vertically as said electrode is melted and refined, a video camera aimed below said drain for imaging said stream and a computer operatively joined to said camera and configured for;
measuring a diameter of said stream image, an inclination angle of said stream image at said reference section;
measuring horizontal offset of said stream image at said measured height below said reference section; and
calculating said flowrate based on said measured diameter, height, offset, and angle.
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Specification
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Current AssigneeGeneral Electric Company
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Original AssigneeGeneral Electric Company
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InventorsKnudsen, Bruce Alan, Zabala, Robert John, Carter, William Thomas Jr., Benz, Mark Gilbert, Miller, Russell Scott
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Primary Examiner(s)Gordon, Paul P.
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Assistant Examiner(s)Garland, Steven R.
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Application NumberUS09/221,721Time in Patent Office988 DaysField of Search700/282, 700/283, 700/145, 700/117, 653/26, 653/76, 653/82, 653/84, 654/88, 654/91, 75/101.4, 75/102.4, 373/72, 373/79, 373/115, 373/142, 348/135, 348/138, 348/92, 382/100, 738/610.5, 738/61, 250/559.03, 250/559.08, 250/559.24, 250/559.32, 250/573, 222/593US Class Current700/145CPC Class CodesG01F 1/002 wherein the flow is in an o...G01F 1/34 by measuring pressure or di...G01F 1/661 using lightG01F 1/86 Indirect mass flowmeters, e...
