The invention provides processes for delivering a blend of two or more compressed gas streams to a receiving vessel at a preset ramp rate under pressure regulation control in response to cumulative mass ratio when at least two of the streams have different compositions or instantaneous measured temp
The invention provides processes for delivering a blend of two or more compressed gas streams to a receiving vessel at a preset ramp rate under pressure regulation control in response to cumulative mass ratio when at least two of the streams have different compositions or instantaneous measured temperature when the streams have the same composition.
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The invention claimed is: 1. A process for delivering a blend of two or more compressed gas streams to a receiving vessel, the process comprising: (a) blending two or more compressed gas streams to form the blend, wherein each of the two or more compressed gas streams (1) is supplied by a separate
The invention claimed is: 1. A process for delivering a blend of two or more compressed gas streams to a receiving vessel, the process comprising: (a) blending two or more compressed gas streams to form the blend, wherein each of the two or more compressed gas streams (1) is supplied by a separate compressed gas supply source, (2) is under the control of one or more pressure regulators, and (3) is subject to mass flow rate measurement by one or more flow detectors; and (b) delivering the blend to the receiving vessel at a preset blend ramp rate, wherein (I) a programmable controller (1) receives data from the one or more flow detectors representing the mass flow rates for at least two of the two or more compressed gas streams (2) calculates a cumulative mass ratio for the blend based on the mass flow rates of at least two of the two or more compressed gas streams, and (3) (i) compares the calculated cumulative mass ratio for the blend to a pre-set blend cumulative mass ratio, and (ii) adjusts the pressure regulator for at least one of the two or more compressed gas streams as necessary to maintain the calculated cumulative mass ratio for the blend within a specified tolerance of the pre-set blend cumulative mass ratio; and (II) at least two of the two or more compressed gas streams have different compositions. 2. A process of claim 1, wherein the programmable controller is a programmable logic controller. 3. A process of claim 1, wherein the pressure regulator for at least one of the two or more compressed gas streams includes a current to pressure transducer. 4. A process of claim 1, wherein: (a) a blend of hydrogen and compressed natural gas is delivered to the receiving vessel; (b) the mass percentage of hydrogen in the blend ranges from about 0.6 to about 11% and the balance of blend consists essentially of compressed natural gas; and (c) the maximum receiving vessel pressure is around 25 MPa to around 35 MPa. 5. A process of claim 4, wherein during delivery of the blend to the receiving vessel, the receiving vessel temperature does not exceed around 85�� C. 6. A process of claim 1, wherein the pre-blending temperatures of the two or more compressed gas streams are approximately the same. 7. A process of claim 1, wherein the pre-blending temperature of one of the two or more compressed gas streams is approximately ambient temperature. 8. A process of claim 4, wherein the receiving vessel is located at a compressed gas station for fueling vehicles. 9. A process of claim 4, wherein the preset blend ramp rate is between around 5 to around 15 MPa per minute. 10. A process for delivering a blend of two or more compressed gases to a receiving vessel, the process comprising: (a) blending two or more compressed gas streams to form the blend, wherein each of the two or more compressed gas streams (1) is supplied by a separate compressed gas supply source, (2) is under the control of one or more pressure regulators, (3) is subject to temperature measurement by one or more temperature sensors, (4) has essentially the same composition; and (b) delivering the blend to the receiving vessel at a preset blend ramp rate, wherein a programmable controller (1) receives data from the one or more temperature sensors representing the temperatures of at least two of the two or more compressed gas streams (2) calculates an instantaneous ramp rate for at least one of the compressed gas streams based on the temperatures of at least two of the two or more compressed gas streams, and (3) (i) compares an instantaneous measured temperature of the blend to a pre-set target temperature of the blend, and (ii) adjusts the pressure regulator for at least one of the two or more compressed gas streams as necessary to maintain the instantaneous measured temperature within a specified tolerance. 11. A process of claim 10, wherein the programmable controller is a programmable logic controller. 12. A process of claim 10, wherein the pressure regulator for at least one of the two or more compressed gas streams includes a current to pressure transducer. 13. A process of claim 10, wherein the two or more compressed gas streams consist of two or more hydrogen streams or two or more compressed natural gas streams. 14. A process of claim 13, wherein during delivery of the blend to the receiving vessel, the receiving vessel temperature does not exceed around 85�� C. 15. A process of claim 10, wherein the pre-blending temperatures of the two or more compressed gas streams are different. 16. A process of claim 10, wherein the pre-blending temperature of one of the two or more compressed gas streams is approximately ambient temperature. 17. A process of claim 13, wherein the receiving vessel is located at a compressed gas station for fueling vehicles. 18. A process of claim 13, wherein the preset blend ramp rate is around 5 to around 15 MPa per minute. 19. A process of claim 4, wherein the calculated cumulative mass ratio for the blend is maintained at a value of between around 0.1% to around 10% of the pre-set blend cumulative mass ratio. 20. A process of claim 13, wherein the blended temperature is maintained at a value of between around 0�� C. to around 20�� C. of the desired temperature.
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이 특허에 인용된 특허 (7)
Kountz Kenneth J. ; Liss William E. ; Blazek Christopher F., Automated process for dispensing compressed natural gas.
Graham, John David Trevor; Mulvenna, Alan John; Mufford, William Edward; Borck, Joachim George; Ko, James; Harper, Matthew Albert MacLennan, Hydrogen fueling station.
Bartlett, Jack Francis; Deline, Jonathan E.; Ingold, John E.; Jennings, Michael Lawrence, Fuel or DEF dispenser having fluid temperature conditioning and control system.
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