Sonic tank monitoring system
First Claim
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1. Apparatus for determining the distance between the surface of a liquid and a known reference level below the surface of the liquid comprising:
- (a) an elongated body defining first and second linearly elongated parallel chambers with means substantially separating the interior of each chamber from the interior of the other chamber, each chamber having an upper end and a lower end;
(b) an acoustic transducer adapted to emit acoustic signals and receive reflected acoustic signals mounted at the lower end of each of said chambers; and
(c) a plurality of horizontally extending reflectors positioned at vertically spaced intervals within said second chamber.
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Abstract
The height of a liquid level from the bottom of a storage tank or the like is accurately determined by using a probe with dual isolated channels to measure the time for an acoustic signal to travel between fixed submerged points and from a transducer in one of the channels to the surface of the liquid. Elapsed time measurements are converted to liquid volume using predetermined velocity-temperature values to compensate for temperature variations in the tank.
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Citations
17 Claims
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1. Apparatus for determining the distance between the surface of a liquid and a known reference level below the surface of the liquid comprising:
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(a) an elongated body defining first and second linearly elongated parallel chambers with means substantially separating the interior of each chamber from the interior of the other chamber, each chamber having an upper end and a lower end; (b) an acoustic transducer adapted to emit acoustic signals and receive reflected acoustic signals mounted at the lower end of each of said chambers; and (c) a plurality of horizontally extending reflectors positioned at vertically spaced intervals within said second chamber. - View Dependent Claims (2, 3, 4, 5)
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6. The method of determining the distance between the surface of a liquid and a known reference level below the surface of the liquid comprising the steps of:
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(a) positioning substantially vertically and partially submerged within said liquid a probe comprising an elongated body defining first and second separate linearly elongated parallel chambers, each chamber having an upper and a lower end; and
acoustic transducer adapted to emit acoustic signals and receive reflected acoustic signals mounted at the lower end of each of said chambers; and
a plurality of horizontally extending reflectors positioned at vertically spaced intervals within said second chamber so that the upper surfaces of said transducers are positioned at a known reference level and at least one of said reflectors is below the surface of said liquid;(b) measuring the time required for an acoustic signal to travel from said transducer in said first chamber to the surface of said liquid; (c) measuring the time required for an acoustic signal to travel from said transducer in said second chamber to at least one submerged reflector to determine the average velocity of said acoustic signal in said liquid; and (d) using said average velocity as determined in said second chamber and said time required for an acoustic signal to travel from the transducer in said first chamber to the surface of said liquid to determine the distance from the surface of the transducer to the surface of said liquid. - View Dependent Claims (7)
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8. The method of determining the distance between the surface of a liquid and a known reference level below the surface of said liquid comprising the steps of:
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(a) measuring the time required for an acoustic signal to travel to the surface of the liquid from a first transducer located at a known reference level within a first chamber which is at least partially submerged in said liquid; (b) measuring the time required for an acoustic signal from a second transducer within a second chamber adjacent and substantially isolated from said first chamber and at least partially submerged in said liquid to travel between two vertically spaced points separated by a known distance below the surface of said liquid within said second chamber; (c) determining the velocity of said acoustic signal within said liquid from said time required for said acoustic signal to travel between said two points separated by a known distance; and (d) multiplying the time required for said acoustic signal to travel from said first transducer to said surface by the velocity of said acoustic signal within said liquid. - View Dependent Claims (9)
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10. The method of determining the volume of liquid in a container of known geometry comprising the steps of:
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(a) measuring the time required for an acoustic signal to travel from a first transducer located within a substantially vertical first chamber and at a known position within a container to the surface of a liquid contained within said container; (b) measuring the time required for an acoustic signal from a second transducer to travel within a second substantially vertical chamber in said container between two points below the surface of said liquid and separated by a known distance; (c) determining the average velocity of said signal between said two points; (d) multiplying said average velocity by the time required for said acoustic signal to travel from said transducer to said liquid surface to determine the height of said surface above said transducer; and (e) using the measured height of said liquid surface above said transducer and the known geometry of said container to determine the volume of said liquid in said container. - View Dependent Claims (11, 12)
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13. The method of determining the temperature of a liquid in a container comprising the steps of:
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(a) measuring the velocity of an acoustic signal through a quantity of a known liquid at various known temperatures; (b) determining a set of reference values of signal velocity vs. temperature for said liquid; (c) measuring the time required for an acoustic signal to travel between two points separated by a known distance and submerged in a known liquid at an unknown temperature in a container; and (d) determining the velocity of said signal traveling between said two points; and (e) comparing the velocity of said signal traveling between said two points to said set of reference values to determine the temperature of the liquid between said two points.
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14. The method of determining the volume of a liquid in a container of known geometry comprising the steps of:
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(a) measuring the velocity of an acoustic signal through a quantity of liquid at various known temperatures; (b) determining a set of reference values of signal velocity vs. temperature for said liquid; (c) measuring the time required for an acoustic signal to travel from a transducer located at a known position within a container to the surface of a liquid contained within said container; (d) measuring the time required for an acoustic signal to travel between two points separated by a known distance and submerged in said liquid; (e) determining the average temperature between said two points by determining the velocity of said signal between said two points and comparing the velocity to said reference values; (f) using the average temperature of the liquid between said two points to determine the average velocity of said signal between said transducer and said liquid surface; (g) multiplying said average velocity by the time for said acoustic signal to travel from said transducer to said liquid surface to determine the height of said surface above said transducer; and (h) using the measured height of said liquid surface above said transducer and the known geometry of said container to determine the volume of said liquid in said container. - View Dependent Claims (15, 16)
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17. The method of determining the distance of an interface between lower and upper liquids from a known reference level below said interface comprising the steps of:
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(a) positioning an acoustic transducer capable of emitting acoustic signals and receiving reflected acoustic signals at said reference level; (b) positioning a first reflector above said interface at a first known distance from said transducer; (c) positioning a second reflector above said first reflector at a second known distance above said transducer and submerged in said upper liquid; (d) measuring the time required for an acoustic signal to travel said first known distance; (e) measuring the time required for an acoustic signal to travel said second known distance; (f) determining the velocity of said signal between said first reflector and said second reflector; (g) determining the velocity of said signal in said lower liquid; (h) calculating the distance from said reference level to said interface using the formula ##EQU5## where Lw=distance from said reference level to said interface; DR1=said first known distance; Cg=average velocity of said acoustic signal between said first reflector and said second reflector; Cm=average velocity of said acoustic signal between said transducer and said first reflector; and Cw=velocity of said acoustic signal in said first liquid.
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Specification