Method and system for blending gasoline and butane at the point of distribution
DC CAFC
First Claim
Patent Images
1. A system for blending gasoline and butane at a tank farm comprising:
- a) a tank of gasoline;
b) a tank of butane;
c) a blending unit, at the tank farm, downstream of and in fluid connection with the tank of gasoline and the tank of butane;
d) a dispensing unit downstream of and in fluid connection with the blending unit; and
e) a rack, wherein the dispensing unit is located at the rack and is adapted to dispense gasoline to gasoline transport vehicles.
3 Assignments
Litigations
0 Petitions
Accused Products
Abstract
A system and method is provided for blending butane with gasoline at petroleum tank farms, immediately before distribution to tanker trucks. The invention provides a method for blending gasoline and butane at a tank farm comprising: (a) drawing a gasoline stream from a tank of gasoline; (b) drawing a butane stream from a tank of butane; (c) blending the butane and gasoline streams to form a blend; and (d) dispensing the blend. The blending process can be controlled to ensure that the vapor pressure of the blended gasoline meets vapor pressure requirements of environmental regulations. Information generated by the blending process can be used to efficiently forecast butane purchasing requirements, and to generate regulatory reports.
80 Citations
41 Claims
-
1. A system for blending gasoline and butane at a tank farm comprising:
-
a) a tank of gasoline;
b) a tank of butane;
c) a blending unit, at the tank farm, downstream of and in fluid connection with the tank of gasoline and the tank of butane;
d) a dispensing unit downstream of and in fluid connection with the blending unit; and
e) a rack, wherein the dispensing unit is located at the rack and is adapted to dispense gasoline to gasoline transport vehicles. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
a) a gasoline vapor pressure sensor operable for measuring the vapor pressure of gasoline upstream of the blending unit;
b) a butane vapor pressure sensor operable for measuring the vapor pressure of butane upstream of the blending unit;
c) wherein the ratio input signal is generated from the vapor pressures of gasoline and butane measured by the gasoline vapor pressure sensor and the butane vapor pressure sensor.
-
-
5. The system of claim 4, wherein the gasoline and butane vapor pressure sensors measure the vapor pressure of gasoline and butane within the blending unit immediately before blending.
-
6. The system of claim 4, wherein the process control unit comprises one or more information processing units capable of transforming measurements from the gasoline and butane vapor pressure sensors into the ratio input signal, and maintaining or varying the ratio of gasoline and butane blended in the blending unit.
-
7. The system of claim 6, wherein the measurements from the gasoline and butane vapor pressure sensors are transformed into a ratio input signal through a mathematical algorithm that calculates the ratio of butane and gasoline that will yield a desired vapor pressure for the blended gasoline and butane.
-
8. The system of claim 1, further comprising one or more pumps for regulating the flow of gasoline and or butane into the blending unit.
-
9. The system of claim 1, wherein the blending unit comprises one or more valves for regulating the ratio of butane and gasoline blended by the blending unit.
-
10. The system of claim 1, wherein the blending unit comprises an injector in fluid connection with the tank of butane for injecting butane into the gasoline.
-
11. The system of claim 1, wherein the gasoline is reformulated gasoline.
-
12. A method for blending gasoline and butane at a tank farm comprising:
-
a) drawing a gasoline stream from a tank of gasoline;
b) drawing a butane stream from a tank of butane;
c) blending the butane and gasoline streams, at the tank farm, to form a blend; and
d) dispensing the blend to gasoline transport vehicles using a dispensing unit located at a rack. - View Dependent Claims (13, 14, 15, 16, 17)
a) determining a blend ratio of butane and gasoline in the butane and gasoline streams that will yield a desired vapor pressure, and b) blending the gasoline and butane streams at the blend ratio.
-
-
14. The method of claim 13, wherein the blend ratio is determined from a vapor pressure of the gasoline stream and a vapor pressure of the butane stream.
-
15. The method of claim 12, wherein a vapor pressure of the gasoline and a vapor pressure of the butane are determined by:
-
a) drawing a sample of gasoline from the gasoline stream;
b) measuring the vapor pressure of the sample of gasoline;
c) returning the sample of gasoline to the gasoline stream;
d) drawing a sample of butane from the butane stream;
e) measuring the vapor pressure of the sample of butane; and
f) returning the sample of butane to the gasoline stream.
-
-
16. The method of claim 14, wherein the step of determining the blend ratio comprises:
-
a) setting a predetermined value for the vapor pressure of the blend;
b) transmitting the predetermined value for the vapor pressure of the blend to a processing unit;
c) transmitting the gasoline vapor pressure and the butane vapor pressure to the processing unit;
d) calculating the blend ratio from the gasoline vapor pressure, the butane vapor pressure, and the predetermined value for the vapor pressure of the blend.
-
-
17. The method of claim 16, further comprising:
-
a) transmitting a signal that corresponds to the vapor pressure of the blend from the processing unit to a programmable logic control; and
b) adjusting the ratio of butane and gasoline blended in the blending unit with the programmable logic control.
-
-
18. A method for optimizing butane purchase decisions for a petroleum products tank farm comprising:
-
a) in an information processing unit, setting a value for the quantity of butane in a tank at time zero;
b) drawing a butane stream from the tank of butane;
c) blending the butane stream with gasoline for a first interval of time from time zero until time one;
d) monitoring the consumption of butane blended with the gasoline during the first interval of time, and transmitting data regarding the consumption during the first interval of time to the information processing unit; and
e) transforming the consumption data during the first interval of time, and the butane quantity at time zero, to an output of data comprising the butane consumption rate during the first interval of time, and the quantity of butane in the tank at time one. - View Dependent Claims (19, 20, 21, 22)
a) blending the butane stream with gasoline for a second interval of time from time one until time two;
b) monitoring the consumption of butane blended with the gasoline during the second time interval, and transmitting data regarding the consumption during the second time interval to the information processing unit;
c) transforming the consumption data during the second interval of time, and the butane quantity at time one, to an output of data comprising the butane consumption rate during the second interval of time, and the quantity of butane in the tank at time two; and
d) repeating steps a) through c) for one or more succeeding intervals of time.
-
-
20. The method of claim 18 wherein the butane stream and the gasoline are blended at a ratio that attains a prescribed vapor pressure.
-
21. The method of claim 20 wherein the ratio varies due to variations in the vapor pressure of the gasoline and/or the butane stream.
-
22. The method of claim 18 further comprising:
-
a) inputting to the information processing unit a plurality of time dependent vapor pressure values;
b) blending the butane and gasoline at ratios that attain the time dependent vapor pressure values;
c) transforming the time dependent vapor pressure values, and the consumption rate of butane over the first interval of time, to data output comprising a projected rate of butane consumption.
-
-
23. A method for simplifying record keeping requirements for butane use at a petroleum products tank farm comprising:
-
a) drawing a gasoline stream from a tank of gasoline;
b) drawing a butane stream from a tank of butane;
c) blending the butane stream and the gasoline stream to form a blend;
d) monitoring the volatility of the gasoline stream and the butane stream;
e) monitoring the rate at which the butane stream is blended with the gasoline stream;
f) inputting the monitored volatilities and monitored blend rate to an information processing unit; and
g) generating a report that tabulates the monitored volatilities and monitored blend rate, or a summary thereof. - View Dependent Claims (24, 25, 26)
-
-
27. A method for blending butane and gasoline using a processor comprising:
-
a) receiving a gasoline volatility measurement at the processor;
b) receiving a butane volatility measurement at the processor;
c) receiving a target gasoline volatility value at the processor; and
d) calculating a butane blend rate from the gasoline volatility measurement, the butane volatility measurement, and the target gasoline volatility value. - View Dependent Claims (28, 29, 30, 31, 32, 33, 34, 35)
a) the gasoline volatility measurement and b) the butane volatility measurement.
-
-
29. The method of claim 27 wherein the processor uses the butane blend rate to regulate the flow of butane.
-
30. The method of claim 27 wherein the processor uses the butane blend rate to control an injector that regulates the flow of butane.
-
31. The method of claim 27 wherein the target gasoline volatility value is input into the processor manually.
-
32. The method of claim 27 wherein the processor automatically determines the target gasoline volatility value from the date.
-
33. The method of claim 27 wherein the gasoline volatility measurement is the vapor-liquid ratio of the gasoline.
-
34. The method of claim 27 wherein the gasoline volatility measurement is the vapor pressure of the gasoline.
-
35. A computer-readable medium having computer-executable instructions for performing the steps recited in claim 27.
-
36. A system for blending gasoline and a volatility modifying agent at a tank farm comprising:
-
a) a tank of gasoline;
b) a tank of a volatility modifying agent;
c) a blending unit, at the tank farm, downstream of and in fluid connection with the tank of gasoline and the tank of volatility modifying agent;
d) a dispensing unit downstream of and in fluid connection with the blending unit; and
e) a rack, wherein the dispensing unit is located at the rack and is adapted to dispense gasoline to gasoline transport vehicles. - View Dependent Claims (37, 38)
-
-
39. A method for blending gasoline and a volatility modifying agent at a tank farm comprising:
-
a) drawing a gasoline stream from a tank of gasoline;
b) drawing a volatility modifying agent stream from a tank of volatility modifying agent;
c) blending the volatility modifying agent and gasoline streams, at the tank farm, to form a blend; and
d) dispensing the blend to gasoline transport vehicles using a dispensing unit located at a rack. - View Dependent Claims (40, 41)
a) determining a blend ratio of volatility modifying agent and gasoline in the volatility modifying agent and gasoline streams that will yield a desired vapor pressure, and b) blending the volatility modifying agent and butane streams at the blend ratio.
-
-
41. The method of claim 40, wherein the blend ratio is determined from a vapor pressure of the gasoline stream and a vapor pressure of the volatility modifying agent stream.
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
Litigation Data
-
Current AssigneeSunoco Partners Marketing & Terminals L.P. (Energy Transfer Operating, L.P.)
-
Original AssigneeMCE Blending, LLC
-
InventorsMattingly, Larry D., Vanderbur, Steven M.
-
Primary Examiner(s)Douglas, Steven O.
-
Application NumberUS10/071,191Time in Patent Office711 DaysField of Search141/9, 141/100, 141/104, 141/94, 141/83, 141/192, 141/198, 222/25, 222/26, 222/71, 222/72, 137/486, 137/625.41US Class Current141/104CPC Class CodesC10G 2400/02 GasolineC10G 2400/28 Propane and butaneC10L 1/06 for spark ignitionG05D 11/131 by measuring the values rel...Y10T 137/7759 Responsive to change in rat...Y10T 137/86823 Rotary valve
