Apparatus and method for automatically updating the relationship between measured storage tank depth and storage tank volume and monitoring the accuracy of a dispenser flow meter
First Claim
1. A method for creating and displaying an accurate depth-to-volume relationship for a storage tank configured to store a liquid, said storage tank having a depth sensor for measuring a depth of said liquid, a fill access for adding said liquid, an attached dispenser for dispensing said liquid, and a calibrated flow meter configured to measure a flow by volume of said liquid as said liquid is being dispensed, comprising:
- a. providing a processor running software, said processor including an associated memory;
b. providing a user display configured to display information from said processor;
c. storing an initial depth-to-volume relationship in said memory, said initial depth-to-volume relationship relating a volume of said liquid in said tank to a depth measured by said depth sensor;
d. at a first time, said processor storing an initial value for a mass of liquid in said tank;
e. providing a densitometer configured to measure a density of said liquid as said liquid is being dispensed;
f. providing a tank temperature sensor for measuring a temperature of said liquid in said tank;
g. at a second time, said processor determining a calculated volume of said liquid in said tank byi. calculating a mass of liquid dispensed from said tank since said first time using said flow by volume measurements from said calibrated flow meter and said density measurements from said liquid densitometer, wherein mass is calculated as volume measured by said calibrated flow meter times density measured by said densitometer,ii. calculating a mass of liquid added to said tank since said first time using volume delivered measurements through said fill access and corresponding temperature-as-delivered measurements, wherein said temperature-as-delivered measurements are used to determine density and mass is calculated as density times volume,iii. calculating a revised value for said mass of liquid in said tank by adding said mass of liquid added to said tank and subtracting said mass of liquid dispensed from said initial value for said mass of liquid,iv. calculating a revised volume of said liquid in said tank using said revised value for said mass of said liquid in said tank and a value for said tank temperature sensor, wherein said value for said tank temperature sensor is used to determine density and volume is calculated as mass divided by density,h. retrieving a current liquid depth value from said depth sensor;
i. creating a revised depth-to-volume relationship using said current liquid depth value and said calculated revised volume, whereby said depth-to-volume relationship is expanded over multiple iterations to encompass multiple depths and multiple calculated volumes;
j. for said current liquid depth value measured by said depth sensor, said processor retrieving said corresponding volume value from said revised depth-to-volume relationship; and
k. displaying said corresponding volume value on said display.
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Accused Products
Abstract
An automated liquid inventory monitoring and inventory reconciliation system. The system uses a liquid densitometer to precisely measure the density of liquid being dispensed. This allows the system to account for the significant temperature-induced volume variations existing in common liquids such as gasoline. In the preferred embodiments, a fuel inventory processor tracks the quantity of fuel loaded into the tank and the quantity of fuel dispensed to maintain an ongoing computation of the quantity of fuel that should be present in the tank. An accurate tank depth measurement device is also employed. The processor compares the tank depth measurement to the computed quantity of fuel in the tank and uses the values to create an updated tank strapping chart.
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Citations
20 Claims
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1. A method for creating and displaying an accurate depth-to-volume relationship for a storage tank configured to store a liquid, said storage tank having a depth sensor for measuring a depth of said liquid, a fill access for adding said liquid, an attached dispenser for dispensing said liquid, and a calibrated flow meter configured to measure a flow by volume of said liquid as said liquid is being dispensed, comprising:
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a. providing a processor running software, said processor including an associated memory; b. providing a user display configured to display information from said processor; c. storing an initial depth-to-volume relationship in said memory, said initial depth-to-volume relationship relating a volume of said liquid in said tank to a depth measured by said depth sensor; d. at a first time, said processor storing an initial value for a mass of liquid in said tank; e. providing a densitometer configured to measure a density of said liquid as said liquid is being dispensed; f. providing a tank temperature sensor for measuring a temperature of said liquid in said tank; g. at a second time, said processor determining a calculated volume of said liquid in said tank by i. calculating a mass of liquid dispensed from said tank since said first time using said flow by volume measurements from said calibrated flow meter and said density measurements from said liquid densitometer, wherein mass is calculated as volume measured by said calibrated flow meter times density measured by said densitometer, ii. calculating a mass of liquid added to said tank since said first time using volume delivered measurements through said fill access and corresponding temperature-as-delivered measurements, wherein said temperature-as-delivered measurements are used to determine density and mass is calculated as density times volume, iii. calculating a revised value for said mass of liquid in said tank by adding said mass of liquid added to said tank and subtracting said mass of liquid dispensed from said initial value for said mass of liquid, iv. calculating a revised volume of said liquid in said tank using said revised value for said mass of said liquid in said tank and a value for said tank temperature sensor, wherein said value for said tank temperature sensor is used to determine density and volume is calculated as mass divided by density, h. retrieving a current liquid depth value from said depth sensor; i. creating a revised depth-to-volume relationship using said current liquid depth value and said calculated revised volume, whereby said depth-to-volume relationship is expanded over multiple iterations to encompass multiple depths and multiple calculated volumes; j. for said current liquid depth value measured by said depth sensor, said processor retrieving said corresponding volume value from said revised depth-to-volume relationship; and k. displaying said corresponding volume value on said display. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for creating and displaying an accurate depth-to-volume relationship for a storage tank configured to store a liquid, said storage tank having a depth sensor for measuring a depth of said liquid, a fill access for adding said liquid, an attached dispenser for dispensing said liquid, and a calibrated flow meter configured to measure a flow by volume of said liquid as said liquid is being dispensed, comprising:
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a. providing a processor running software, said processor including an associated memory; b. providing a user display configured to display information from said processor; c. storing a first depth-to-volume relationship in said memory, said first depth-to-volume relationship relating a volume of said liquid in said tank to a depth measured by said depth sensor; d. at a first time, said processor storing an initial value for a mass of liquid in said tank; e. providing a densitometer configured to measure a density of said liquid as said liquid is being dispensed; f. providing a tank temperature sensor for measuring a temperature of said liquid in said tank; g. said processor determining a calculated volume of said liquid in said tank by i. calculating a mass of liquid dispensed from said tank since said first time using said flow by volume measurements from said calibrated flow meter and said density measurements from said liquid densitometer, wherein mass is calculated as volume measured by said calibrated flow meter times density measured by said densitometer, ii. calculating a mass of liquid added to said tank since said first time using volume delivered measurements through said fill access and corresponding temperature-as-delivered measurements, wherein said temperature-as-delivered measurements are used to determine density and mass is calculated as density times volume, iii. calculating a revised value for said mass of liquid in said tank by adding said mass of liquid added to said tank and subtracting said mass of liquid dispensed from said initial value for said mass of liquid, iv. calculating a revised volume of said liquid in said tank using said revised value for said mass of said liquid in said tank and a value for said tank temperature sensor, wherein said value for said tank temperature sensor is used to determine density and volume is calculated as mass divided by density, h. retrieving a current liquid depth value from said depth sensor; i. creating a revised depth-to-volume relationship using said current liquid depth value and said calculated revised volume, whereby said depth-to-volume relationship is expanded over multiple iterations to encompass multiple depths and multiple calculated volumes; and j. for said currently measured liquid depth displaying said corresponding volume value on said display. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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Specification