Fluid opacity sensor
First Claim
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1. A fiber optic fluid opacity sensor for measuring opacity of a sample, comprising:
- a light source;
means for dividing light from said light source into a sample signal and a reference signal;
a sample optical pathway for transmitting said sample signal through a sample in a passage defined by a predetermined distance;
a reference optical pathway for transmitting said reference signal through passage defined by a predetermined distance approximately equal to said sample passage;
a probe for containing said sample and reference optical pathways, said probe having a passage for providing sample to the sample passage, said reference optical pathway being situated in said probe adjacent said sample optical pathway and sealed from sample ingress;
nozzle means constructed to receive said probe in a sample process line, said nozzle means having sealing means to prevent sample escape, said sealing means being constructed to allow said probe of the fluid opacity sensor to be withdrawn from the sample process line for cleaning the sample passage and setting offset adjustment;
a photodetector for each optical pathway for receiving said sample signal and said reference signal being propagated along said sample optical pathway and said reference optical pathway, each of said photodetectors being situated inside said probe, both of said optical pathways being defined by optical fiber means spaced apart from and axially aligned with said photodetectors at the predetermined distance of the sample and reference passage, said reference optical pathway being exposed to a similar environment as said sample optical pathway; and
means for measuring variations in light intensity of said sample and reference signals for determining opacity.
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Abstract
A fiber optic fluid opacity sensor includes a light source (12) transmitting light to dividing means (14) for providing a sample light signal (18) and a reference light signal (20) to dual photodetectors (26, 28). Sample and reference optical pathways (19, 21) are defined by optical fibers (18, 20) spaced apart from and axially aligned with the photodetectors (26, 28) at a predetermined distance. Signal processing means (30) takes the log ratio output of the signals from the photodetectors (26, 28) for cancelling the effect of light source drift since the same source (12) is common to both for measuring the light transmission and determining opacity therefrom. A sample probe (40) contains the photodetectors (26, 28) and the sample and reference optical pathways (19, 21). The light source (12) and the signal processing means (30) are situated outside of the probe (40) and by virtue thereof outside of the sample process line (48).
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Citations
18 Claims
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1. A fiber optic fluid opacity sensor for measuring opacity of a sample, comprising:
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a light source; means for dividing light from said light source into a sample signal and a reference signal; a sample optical pathway for transmitting said sample signal through a sample in a passage defined by a predetermined distance; a reference optical pathway for transmitting said reference signal through passage defined by a predetermined distance approximately equal to said sample passage; a probe for containing said sample and reference optical pathways, said probe having a passage for providing sample to the sample passage, said reference optical pathway being situated in said probe adjacent said sample optical pathway and sealed from sample ingress; nozzle means constructed to receive said probe in a sample process line, said nozzle means having sealing means to prevent sample escape, said sealing means being constructed to allow said probe of the fluid opacity sensor to be withdrawn from the sample process line for cleaning the sample passage and setting offset adjustment; a photodetector for each optical pathway for receiving said sample signal and said reference signal being propagated along said sample optical pathway and said reference optical pathway, each of said photodetectors being situated inside said probe, both of said optical pathways being defined by optical fiber means spaced apart from and axially aligned with said photodetectors at the predetermined distance of the sample and reference passage, said reference optical pathway being exposed to a similar environment as said sample optical pathway; and means for measuring variations in light intensity of said sample and reference signals for determining opacity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A fiber optic fluid opacity sensor for measuring opacity of a sample in a sample process line, comprising:
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a light source; means for dividing light from said light source into a sample signal and a reference signal; a sample optical pathway for transmitting said sample signal through a sample in a passage defined by a predetermined distance; a reference optical pathway for transmitting said reference signal through a reference passage with a distance approximately equal to the predetermined distance of the sample passage; a photodetector for each optical pathway for receiving said sample signal and said reference signal being propagated along said sample and reference optical pathways, each of said optical pathways being defined by an optical fiber spaced apart from and axially aligned with said photodetectors at the predetermined distance, said reference optical pathway being sealed from sample ingress at a location substantially adjacent said sample optical pathway and being exposed to a similar environment; a probe for positioning said sample and reference optical pathways in a sample, said probe providing sample access for the sample passage and sealing the reference passage from sample ingress, each of said photodetectors being situated inside said probe; nozzle means in the sample process line constructed to receive said probe, said nozzle means having sealing means for sealing said probe in the sample process line, said sealing means being constructed to allow said probe to be partially withdrawn for cleaning the sample passage and maintenance; and signal processing means for measuring variations in light intensity of said sample and reference signals for determining opacity with log ratios of the signals. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
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Specification
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Current AssigneeBabcock & Wilcox Company (Babcock International Group PLC)
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Original AssigneeBabcock & Wilcox Company (Babcock International Group PLC)
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InventorsDailey, Charles R., Berthold, John W.
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Primary Examiner(s)Evans, F. L.
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Assistant Examiner(s)HANTIS, KAREN
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Application NumberUS07/535,934Time in Patent Office1,051 DaysField of Search356/432-436, 356/440-441, 356/410-411, 250/573-576, 250/227.11, 250/227.14US Class Current356/436CPC Class CodesG01N 2021/1751 Constructive features there...G01N 21/534 by measuring transmission a...G01N 21/8507 Probe photometers, i.e. wit...G01N 2201/0621 SupplyG01N 2201/08 Optical fibres; light guidesG01N 2201/124 SensitivityG01N 2201/12769 and adjusting controls, e.g...
