Ultrasonic contaminant detection system
First Claim
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1. A contaminant detection apparatus comprising:
- a detection chamber includinga housing with an internal fluid conduit,a primary acoustic transducer, anda secondary acoustic transducer, the primary acoustic transducer and the secondary acoustic transducer being disposed in the housing such that a focal beam of the primary acoustic transducer and a focal beam of the secondary acoustic transducer intersect in the internal fluid conduit, the secondary acoustic transducer being disposed in the housing at an angle greater than 0 degrees and less than 180 degrees with respect to the primary acoustic transducer, and;
a detection module coupled to the primary acoustic transducer and the secondary acoustic transducer, the detection module configured to output a primary transmission (Primary Tx) signal to the primary acoustic transducer, the detection module configured to receive a primary reflected (Primary Rx) signal from the primary acoustic transducer and a secondary reflected (Secondary Rx) signal from the secondary acoustic transducer, the detection module further configured to detect a contaminant in a fluid contained in the internal fluid conduit based on the Primary Rx signal and the Secondary Rx signal,the detection module configured to;
cause the primary acoustic transducer to output a pulse stream, the outputting being a response to the Primary Tx signal;
receiving the Primary Rx signal from the primary acoustic transducer and the Secondary Rx signal from the secondary acoustic transducer in response to the pulse stream;
filtering the Primary Rx signal and the Secondary Rx signal;
calculating an average power/pulse in the Primary Rx signal;
calculating a primary channel power based on the average power/ pulse in the Primary Rx signal for a predetermined period of time;
calculating an average power/pulse in the Secondary Rx signal;
calculating a secondary channel power based on the average power/pulse in the Secondary Rx signal for the predetermined period of time;
dividing the primary channel power by the secondary channel power to calculate a classification ratio (CR);
if the CR is less than a predetermined lower threshold, classifying the contaminant in the fluid as particulate;
if the CR is greater than a predetermined upper threshold, classifying the contaminant in the fluid as water; and
if the CR is not less than the predetermined lower threshold and not greater than the predetermined upper threshold, classifying the contaminant in the fluid as a mix of particulate and water.
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Abstract
The invention generally provides a system and method for detecting, measuring, and/or classifying particulate and/or water contaminants in a fluid supply line, storage tank, or sump. Embodiments of the invention provide a contaminant detection apparatus with a detection chamber and a detection module. The detection chamber includes a housing with an internal fluid conduit and one or more acoustic transducers disposed in the housing. Alarms and/or automatic signaling may be included to shut off valves or pumps when contaminants are detected.
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Citations
6 Claims
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1. A contaminant detection apparatus comprising:
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a detection chamber including a housing with an internal fluid conduit, a primary acoustic transducer, and a secondary acoustic transducer, the primary acoustic transducer and the secondary acoustic transducer being disposed in the housing such that a focal beam of the primary acoustic transducer and a focal beam of the secondary acoustic transducer intersect in the internal fluid conduit, the secondary acoustic transducer being disposed in the housing at an angle greater than 0 degrees and less than 180 degrees with respect to the primary acoustic transducer, and; a detection module coupled to the primary acoustic transducer and the secondary acoustic transducer, the detection module configured to output a primary transmission (Primary Tx) signal to the primary acoustic transducer, the detection module configured to receive a primary reflected (Primary Rx) signal from the primary acoustic transducer and a secondary reflected (Secondary Rx) signal from the secondary acoustic transducer, the detection module further configured to detect a contaminant in a fluid contained in the internal fluid conduit based on the Primary Rx signal and the Secondary Rx signal, the detection module configured to; cause the primary acoustic transducer to output a pulse stream, the outputting being a response to the Primary Tx signal; receiving the Primary Rx signal from the primary acoustic transducer and the Secondary Rx signal from the secondary acoustic transducer in response to the pulse stream; filtering the Primary Rx signal and the Secondary Rx signal; calculating an average power/pulse in the Primary Rx signal; calculating a primary channel power based on the average power/ pulse in the Primary Rx signal for a predetermined period of time; calculating an average power/pulse in the Secondary Rx signal; calculating a secondary channel power based on the average power/pulse in the Secondary Rx signal for the predetermined period of time; dividing the primary channel power by the secondary channel power to calculate a classification ratio (CR); if the CR is less than a predetermined lower threshold, classifying the contaminant in the fluid as particulate; if the CR is greater than a predetermined upper threshold, classifying the contaminant in the fluid as water; and if the CR is not less than the predetermined lower threshold and not greater than the predetermined upper threshold, classifying the contaminant in the fluid as a mix of particulate and water. - View Dependent Claims (2)
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3. A contaminant detection apparatus comprising:
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a detection chamber including a housing with an internal fluid conduit, a primary acoustic transducer, and a secondary acoustic transducer, the primary acoustic transducer and the secondary acoustic transducer being disposed in the housing such that a focal beam of the primary acoustic transducer and a focal beam of the secondary acoustic transducer intersect in the internal fluid conduit, the secondary acoustic transducer being disposed in the housing at an angle greater than 0 degrees and less than 180 degrees with respect to the primary acoustic transducer, and; a detection module coupled to the primary acoustic transducer and the secondary acoustic transducer, the detection module configured to output a primary transmission (Primary Tx) signal to the primary acoustic transducer, the detection module configured to receive a primary reflected (Primary Rx) signal from the primary acoustic transducer and a secondary reflected (Secondary Rx) signal from the secondary acoustic transducer, the detection module further configured to detect a contaminant in a fluid contained in the internal fluid conduit based on the Primary Rx signal and the Secondary Rx signal, the detection module configured to; cause the primary transducer to output a pulse stream, the outputting being a response to the Primary Tx signal; receiving the Primary Rx signal from the primary acoustic transducer and the Secondary Rx signal from the secondary acoustic transducer in response to the pulse stream; calculating a primary channel power based on the Primary Rx signal; detecting a contaminant signature in the Primary Rx signal based on the primary channel power, and determining whether the contaminant signature in the Primary Rx signal is in phase with the Primary Tx signal; if the contaminant signature in the Primary Rx signal is not in phase with the Primary Tx signal, classifying the contaminant in the fluid as air; if the contaminant signature in the Primary Rx signal is in phase with the Primary Tx signal, determining a power and a distance for each pulse in the Primary Rx signal and the Secondary Rx signal; detecting a contaminant signature in the Secondary Rx signal, and determining whether the contaminant signature in the Secondary Rx signal correlates with the contaminant signature in the Primary Rx signal; if the contaminant signature in the Secondary Rx signal correlates with the contaminant signature in the Primary Rx signal, calculating a secondary channel power based on the Secondary Rx signal; dividing the primary channel power by the secondary signal channel power to determine a classification ratio (CR); if the CR is less than a predetermined lower threshold, classifying the contaminant in the fluid as particulate; and
if the CR is greater than a predetermined upper threshold, classifying the contaminants contaminant in the fluid as water.
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4. A method for detecting a contaminant in a fluid, the method comprising:
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receiving a Primary Tx signal in a primary acoustic transducer; outputting a pulse stream from the primary acoustic transducer in response to the Primary Tx signal; receiving a Primary Rx signal from the primary acoustic transducer and a Secondary Rx signal from a secondary acoustic transducer in response to the pulse stream; filtering the Primary Rx signal and the Secondary Rx signal; calculating an average power/pulse in the Primary Rx signal; calculating a primary channel power based on the average power/pulse in the Primary Rx signal for a predetermined period of time; calculating an average power/pulse in the Secondary Rx signal; calculating a secondary channel power based on the average power/pulse in the Secondary Rx signal for the predetermined period of time; dividing the primary channel power by the secondary signal channel power to calculate a classification ratio (CR); if the CR is less than a predetermined lower threshold, classifying the contaminant as particulate; if the CR is greater than a predetermined upper threshold, classifying the contaminant as water; and if the CR is not less than the predetermined lower threshold and not greater than the predetermined upper threshold, classifying the contaminant as a mix of particulate and water. - View Dependent Claims (5)
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6. A method for detecting a contaminant in a fluid, the method comprising:
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receiving a Primary Tx signal in a primary acoustic transducer; outputting a pulse stream from the primary acoustic transducer in response to the Primary Tx signal; receiving a Primary Rx signal from the primary acoustic transducer and a Secondary Rx signal from a secondary acoustic transducer in response to the pulse stream; calculating a primary channel power based on the Primary Rx signal; detecting a contaminant signature in the Primary Rx signal based on the primary channel power, and determining whether the contaminant signature in the Primary Rx signal is in phase with the Primary Tx signal; if the contaminant signature in the Primary Rx signal is not in phase with the Primary Tx signal, classifying the contaminant in the fluid as air; if the contaminant signature in the Primary Rx signal is in phase with the Primary Tx signal, determining a power and a distance for each pulse in the Primary Rx signal and the Secondary Rx signal; detecting a contaminant signature in the Secondary Rx signal, and determining whether the contaminant signature in the Secondary Rx signal correlates with the contaminant signature in the Primary Rx signal; if the contaminant signature in the Secondary Rx signal correlates with the contaminant signature in the Primary Rx signal, calculating a secondary channel power based on the Secondary Rx signal; dividing the primary channel power by the secondary channel power to determine a classification ratio (CR); if the CR is less than a predetermined lower threshold, classifying the contaminant in the fluid as particulate; and if the CR is greater than a predetermined upper threshold, classifying the contaminant in the fluid as water.
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Specification
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Current AssigneeGeneral Dynamics Mission Systems Inc. (General Dynamics Corporation)
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Original AssigneeProgeny Systems Corporation
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InventorsBeers, David F., Strong, Michael R., Sevick, John R., Mullen, Michael E.
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Primary Examiner(s)Caputo, Lisa M
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Assistant Examiner(s)Miller, Rose M
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Application NumberUS15/142,953Publication NumberTime in Patent Office1,082 DaysField of Search73570, 73599, 73600, 73602, 73627, 73628, 73646US Class CurrentCPC Class CodesF02M 37/22 Arrangements for purifying ...G01N 15/06 Investigating concentration...G01N 15/10 Investigating individual pa...G01N 2015/003 in liquids, e.g. emulsionG01N 2015/0053 in liquids, e.g. troubleG01N 2291/02416 Solids in liquidsG01N 29/028 by measuring mechanical or ...G01N 29/221 Arrangements for directing ...G01N 29/222 Constructional or flow deta...G01N 29/2437 Piezoelectric probesG01N 29/343 pulse waves, e.g. particula...G01N 29/345 continuous wavesG01N 29/42 by frequency filtering or b...G01N 29/4445 Classification of defectsG01N 33/2847 Water in oilsG01N 33/2888 Lubricating oil characteris...
