Capacitive system for monitoring the dielectric properties of flowing fluid streams
First Claim
1. A method for comparing the dielectric properties of a flowing stream of fluid with the dielectric properties of a reference fluid which comprises:
- (a) providing a multi-capacitor flowing fluid sensor formed of a first pair of capacitors having like dielectric spaces within which a reference fluid is maintained under non-flow conditions as the dielectric material filling said spaces and a second pair of capacitors having like dielectric spaces within which a sample portion of the flowing stream of fluid is continuously passed as the dielectric material filling said spaces, said first pair of capacitors having substantially fixed and like capacitive value and said second pair of capacitors having variable capacitive value related to the variable dielectric constant value of said sample portion;
(b) connecting the first and second pairs of capacitors of said sensor together to form the four capacitive sides of a Wheatstone bridge circuit, the pair of fixed value capacitors connected as two opposing sides of said bridge and the pair of variable value capacitors connected as the remaining two opposing sides of said bridge;
(c) applying a source of alternating current of constant voltage and set frequency across said bridge circuit to a first set of bridge terminals at opposite corners of the bridge, each of said first terminals located between a fixed value capacitor and a variable value capacitor of said sensor;
(d) interrogating the bridge circuit through a detection circuit connected across said bridge to a second set of bridge terminals independent of said first set of terminals and at opposite corners of the bridge, each of said second terminals located between a fixed value capacitor and a variable value capacitor of said sensor; and
(e) measuring the current value in said detection circuit and indicating said value as a deviation value of dielectric constant of the sample portion of the flowing stream of fluid with respect to the dielectric constant of the reference fluid in direct linear relationship with said current value.
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Accused Products
Abstract
A method and instrument for comparing the dielectric properties of a flowing stream of fluid with the dielectric properties of a reference fluid in which a uniquely configured multi-capacitor sensor, formed of a first pair of capacitors having like dielectric spaces within which the reference fluid is maintained under non-flow conditions as the dielectric material and a second pair of capacitors having like dielectric spaces within which a sample portion of the flowing stream of fluid is continuously passed as the dielectric material, comprises all of the capacitance elements of a Wheatstone bridge circuit in a single cellular unit in which the capacitive elements are all subjected to the same sample fluid, temperature and pressure environment and which is not sensitive to stray capacitances. Each pair of capacitors forms opposing sides of the Wheatstone bridge circuit. A source of alternating current of constant voltage and set frequency is applied across a first set of bridge terminals at opposite corners of the bridge and a current detection circuit is connected across a second set of bridge terminals independent of the first set of terminals and at opposite corners of the bridge. Detection and measurement of the current value of the bridge is translated into a value of dielectric constant for the fluid sample in direct linear relationship with the current value.
48 Citations
19 Claims
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1. A method for comparing the dielectric properties of a flowing stream of fluid with the dielectric properties of a reference fluid which comprises:
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(a) providing a multi-capacitor flowing fluid sensor formed of a first pair of capacitors having like dielectric spaces within which a reference fluid is maintained under non-flow conditions as the dielectric material filling said spaces and a second pair of capacitors having like dielectric spaces within which a sample portion of the flowing stream of fluid is continuously passed as the dielectric material filling said spaces, said first pair of capacitors having substantially fixed and like capacitive value and said second pair of capacitors having variable capacitive value related to the variable dielectric constant value of said sample portion; (b) connecting the first and second pairs of capacitors of said sensor together to form the four capacitive sides of a Wheatstone bridge circuit, the pair of fixed value capacitors connected as two opposing sides of said bridge and the pair of variable value capacitors connected as the remaining two opposing sides of said bridge; (c) applying a source of alternating current of constant voltage and set frequency across said bridge circuit to a first set of bridge terminals at opposite corners of the bridge, each of said first terminals located between a fixed value capacitor and a variable value capacitor of said sensor; (d) interrogating the bridge circuit through a detection circuit connected across said bridge to a second set of bridge terminals independent of said first set of terminals and at opposite corners of the bridge, each of said second terminals located between a fixed value capacitor and a variable value capacitor of said sensor; and (e) measuring the current value in said detection circuit and indicating said value as a deviation value of dielectric constant of the sample portion of the flowing stream of fluid with respect to the dielectric constant of the reference fluid in direct linear relationship with said current value. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A capacitive system for monitoring and comparing the dielectric properties of a flowing stream of fluid with respect to the dielectric properties of a reference fluid which comprises:
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(a) a multi-capacitor flowing fluid monitor-sensor formed of (i) a first pair of plate-type capacitors having like dielectric spaces, (ii) means for maintaining a reference fluid of known dielectric constant value under non-flow conditions within the dielectric spaces of said first pair of capacitors whereby said capacitors have substantially fixed and like capacitive value, (iii) a second pair of plate-type capacitors having like dielectric spaces, and (iv) means for continuously passing a sample portion of the flowing stream of fluid through the dielectric spaces of said second pair of capacitors whereby said capacitors have variable and like capacitive value related to the variable dielectric constant value of said sample portion; (b) means electrically connecting the first and second pairs of capacitors of said monitor-sensor together to form the four capacitive sides of a Wheatstone bridge circuit, the pair of fixed value capacitors connected as two opposing sides of said bridge and the pair of variable value capacitors connected as the remaining two opposing sides of said bridge; (c) a source of alternating current of constant voltage and set frequency connected across said bridge circuit to a first set of bridge terminals at opposite corners of the bridge, each of said first terminals located between a fixed value capacitor and a variable value capacitor of said monitor-sensor; and (d) a current detection circuit connected across the bridge to a second set of terminals independent of said first set of terminals and at opposite corners of the bridge, each of said second terminals located between a fixed value capacitor and a variable value capacitor of said monitor-sensor, said detection circuit including current value measurement and current value indication circuitry for expressing in direct linear relationship said current value as the dielectric constant value of the sample portion of the flowing stream of fluid. - View Dependent Claims (8, 9, 10, 11)
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12. A capacitive type monitoring instrument for comparing the dielectric properties of a flowing stream of fluid with respect to the dielectric properties of a reference fluid which comprises:
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(a) four electrically conductive capacitor elements each formed to present two electrically connected capacitive plates; (b) means for mounting said capacitor elements in fixed spaced relationship from one another and for positioning said elements so that each capacitive plate thereof defines with a capacitive plate of the next adjacent capacitor element a dielectric space therebetween whereby said mounted capacitor elements with their respective plates together form four plate-type capacitors; (c) means for maintaining a reference fluid of known dielectric constant value under non-flow conditions within the dielectric spaces of a first pair of said plate-type capacitors whereby said capacitors have substantially fixed and like electrical capacitance value; (d) means for continuously passing a sample portion of the flowing stream of fluid through the dielectric spaces of a second pair of said plate-type capacitors whereby said capacitors have variable and like electrical capacitance value; (e) means for electrically connecting the first and second pairs of capacitors of said monitoring instrument together to form the four capacitive sides of a Wheatstone bridge circuit, the pair of fixed value capacitors connected as two opposing sides of said bridge and the pair of variable value capacitors connected as the remaining two opposing sides of said bridge; (f) means for applying a source of alternating current of constant voltage and set frequency across said bridge circuit at a first set of bridge terminals at opposite corners of the bridge, each of said first terminals located between a fixed value capacitor and a variable value capacitor of said monitoring instrument; and (g) means for detecting and measuring current flow within the bridge circuit, said means being connected across said bridge circuit at a second set of bridge terminals independent of said first set of terminals and at opposite corners of the bridge, each of said second terminals located between a fixed value capacitor and a variable value capacitor of said monitoring instrument. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19)
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Specification