초록 ▼

A method and apparatus for compressing gases and supplying compressed gaseous fuel to a consuming device, such as a gaseous fueled vehicle or the like. One embodiment includes a gas compressor for compressing the gaseous fuel to an array of tanks having predetermined initial set points which are inc

A method and apparatus for compressing gases and supplying compressed gaseous fuel to a consuming device, such as a gaseous fueled vehicle or the like. One embodiment includes a gas compressor for compressing the gaseous fuel to an array of tanks having predetermined initial set points which are increasing for tanks in the array. One embodiment provides a selecting valve having first and second families of ports wherein the valve can be operated to select a plurality of ports from the first family to be fluidly connected with a plurality of ports with the second family, and such fluid connections can be changed by operation of the valve.

대표청구항 ▼

1. A method of filling a tank with compressed gaseous fuel, comprising the steps of: (a) providing an array of tanks comprising a first Tank,a second Tank,a third Tank, anda fourth Tank, anda compressor fluidly connected to the array;(b) before step “e”, taking gas from the first tank, compressing i

1. A method of filling a tank with compressed gaseous fuel, comprising the steps of: (a) providing an array of tanks comprising a first Tank,a second Tank,a third Tank, anda fourth Tank, anda compressor fluidly connected to the array;(b) before step “e”, taking gas from the first tank, compressing it with the compressor anddischarging the compressed gas to the second Tank in the array, andcontinuing this step until one of the following conditions are met:(i) the first Tank experiences a pressure drop which reaches a predefined pressure drop set point for the first Tank, or(ii) the pressure in the first Tank drops to a predefined minimum set point pressure for the first Tank, or(iii) the differential pressure between the second Tank and the first Tank reaches a predefined set point pressure differential; or(iv) second Tank pressure reaches a predefined upper set point pressure for second Tank; (c) between steps “b” and “e”, taking gas from the second Tank, compressing it with the compressor and discharging the compressed gas to the third Tank, andcontinuing this step until one of the following conditions are met:(i) second Tank experiences a pressure drop which reaches a predefined pressure drop set point for the second Tank, or(ii) the pressure in the second Tank drops to a predefined minimum set point pressure for the second Tank, or(iii) the differential pressure between the third Tank and the second Tank reaches the predefined set point pressure differential; or(iv) third Tank pressure reaches a predefined upper set point pressure for third Tank;(d) between steps “c” and “e”, taking gas from the first Tank compressing it with the compressor anddischarging compressed gas to the second Tank in the array, andcontinuing this step until one of the following conditions are met:(i) first tank experiences a pressure drop which reaches the predefined pressure drop set point for the first Tank, or(ii) the pressure in the first Tank drops to the predefined minimum set point pressure for the first Tank, or(iii) the differential pressure between the second Tank and the first Tank reaches the predefined set point pressure differential; or(iv) second Tank pressure reaches the predefined upper set point pressure for the second Tank;(e) between steps “d” and “f”, taking gas from the second Tank, compressing it with the compressor, and discharging compressed gas to the third Tank in the array until one of the following conditions are met: (i) second Tank experiences a pressure drop which reaches a predefined pressure drop set point for the second Tank, or(ii) the pressure in the second Tank drops to a predefined minimum set point pressure for the second Tank, or(iii) the differential pressure between the third Tank and the second Tank reaches a predefined set point pressure differential; or(iv) the third Tank pressure reaches a predefined upper set point pressure for third Tank;(f) between steps “e” and “g” taking gas from the third Tank, compressing it with the compressor and discharging the compressed gas to the fourth Tank, andcontinuing this step until one of the following conditions are met:(i) third Tank experiences a pressure drop which reaches a predefined pressure drop set point for the third Tank, or(ii) the pressure in the third Tank drops to a predefined minimum set point pressure for the third Tank, or(iii) the differential pressure between the fourth Tank and the third Tank reaches a predefined set point pressure differential; or(iv) the fourth Tank pressure reaches a predefined upper set point pressure for fourth Tank; and(g) dispensing compressed gas from at least two tanks of the array, and during dispensing going first to the compressor and next to a vehicle storage tank,wherein during the method steps the compressor is selectively fluidly connected to selected combinations of the first, second, third, and fourth Tanks in the array by a single selector valve, wherein the selector valve has a first family of ports, a second family of ports, and a rotatable selector with a first selector conduit and a second selector conduit, wherein each family of ports have a plurality of selector ports, and wherein in a first selector position of the selector a plurality of the selector ports from the first family can be fluidly connected to a plurality of selector ports from the second family, and in a second selector position of the selector a different plurality of ports from the first family can be fluidly connected to the same plurality of ports from the second family, wherein the first selector conduit of the selector connects ports of the first family to one port in the second family of ports and the second selector conduit of the selector connects ports of the first family to another port in the second family of ports. 2. The method of claim 1, wherein the selector valve includes a body and the selector is rotatively connected to the body. 3. The method of claim 2, wherein the selector includes a trunnion which rotatively connects the selector in the body. 4. The method of claim 1, wherein a plurality of selector ports in the first family are connected in a one way direction by a plurality of check valves. 5. The method of claim 1, wherein rotation of the selector causes the switching in connection between first and second selector positions. 6. The method of claim 1, wherein the first family of selector ports includes at least six selector ports and the second family of selector ports includes at least two selector ports. 7. The method of claim 1, wherein the selector ports in the first family have a first family angular spacing and the selector ports of the second family have a second family angular spacing and the first family angularly spacing is a non zero integer multiple of the second family angular spacing. 8. The method of claim 1, wherein in step “a” the compressor is a single compressor of one stage. 9. The method of claim 1, further including the step of during step “g” repeating steps “b” through “f” until the fourth Tank pressure reaches the predefined upper set point pressures for each of the first, second, third, and fourth Tanks. 10. The method of claim 1, further including the step of, during step “g”, repeating steps “b” through “f” in reverse order until the fourth Tank pressure reaches the predefined upper set point pressures for each of the first, second, third, and fourth Tanks. 11. A method of filling a tank with compressed gaseous fuel, comprising the steps of: (a) providing an array of tanks comprising a first Tank,a second Tank,a third Tank, anda fourth Tank,a fifth Tank, anda compressor fluidly connected to the array;(b) before step “c”, taking gas from the first tank, compressing it with the compressor anddischarging the compressed gas to the second Tank in the array, andcontinuing this step until one of the following conditions are met:(i) first Tank experiences a pressure drop which reaches a predefined pressure drop set point for the first Tank, or(ii) the pressure in the first Tank drops to a predefined minimum set point pressure for the first Tank, or(iii) the differential pressure between the second Tank and the first Tank reaches a predefined set point pressure differential; or(iv) second Tank pressure reaches a predefined upper set point pressure for second Tank; (c) between steps “b” and “d”, taking gas from the second Tank, compressing it with the compressor and discharging the compressed gas to the third Tank, andcontinuing this step until one of the following conditions are met:(i) second Tank experiences a pressure drop which reaches a predefined pressure drop set point for the second Tank, or(ii) the pressure in the second Tank drops to a predefined minimum set point pressure for the second Tank, or(iii) the differential pressure between the third Tank and the second Tank reaches the predefined set point pressure differential; or(iv) third Tank pressure reaches a predefined upper set point pressure for third Tank;(d) between steps “c” and “e”, taking gas from the first Tank compressing it with the compressor anddischarging compressed gas to the second Tank in the array, andcontinuing this step until one of the following conditions are met:(i) first tank experiences a pressure drop which reaches the predefined pressure drop set point for the first Tank, or(ii) the pressure in the first Tank drops to the predefined minimum set point pressure for the first Tank, or(iii) the differential pressure between the second Tank and the first Tank reaches the predefined set point pressure differential; or(iv) second Tank pressure reaches the predefined upper set point pressure for the second Tank;(e) between steps “d” and “f”, taking gas from the second Tank, compressing it with the compressor, and discharging compressed gas to the third Tank in the array until one of the following conditions are met: (i) second Tank experiences a pressure drop which reaches the predefined pressure drop set point for the second Tank, or(ii) the pressure in the second Tank drops to the predefined minimum set point pressure for the second Tank, or(iii) the differential pressure between the third Tank and the second Tank reaches the predefined set point pressure differential; or(iv) the third Tank pressure reaches the predefined upper set point pressure for third Tank;(f) between steps “e” and “g” taking gas from the third Tank, compressing it with the compressor and discharging the compressed gas to the fourth tank, andcontinuing this step until one of the following conditions are met:(i) third Tank experiences a pressure drop which reaches a predefined pressure drop set point for the third Tank, or(ii) the pressure in the third Tank drops to the predefined minimum set point pressure for the third Tank, or(iii) the differential pressure between the fourth Tank and the third Tank reaches the predefined set point pressure differential; or(iv) the fourth Tank pressure reaches a predefined upper set point pressure for fourth Tank; and(g) between steps “f” and “h”, taking gas from the first Tank compressing it with the compressor anddischarging compressed gas to the second Tank in the array, andcontinuing this step until one of the following conditions are met:(i) first tank experiences a pressure drop which reaches the predefined pressure drop set point for the first Tank, or(ii) the pressure in the first Tank drops to the predefined minimum set point pressure for the first Tank, or(iii) the differential pressure between the second Tank and the first Tank reaches the predefined set point pressure differential; or(iv) second Tank pressure reaches the predefined upper set point pressure for the second Tank;(h) between steps “g” and “i”, taking gas from the second Tank, compressing it with the compressor, and discharging compressed gas to the third Tank in the array until one of the following conditions are met: (i) second Tank experiences a pressure drop which reaches the predefined pressure drop set point for the second Tank, or(ii) the pressure in the second Tank drops to the predefined minimum set point pressure for the second Tank, or(iii) the differential pressure between the third Tank and the second Tank reaches the predefined set point pressure differential; or(iv) the third Tank pressure reaches the predefined upper set point pressure for third Tank;(i) between steps “h” and “j” taking gas from the third Tank, compressing it with the compressor and discharging the compressed gas to the fourth tank, andcontinuing this step until one of the following conditions are met:(i) third Tank experiences a pressure drop which reaches the predefined pressure drop set point for the third Tank, or(ii) the pressure in the third Tank drops to the predefined minimum set point pressure for the third Tank, or(iii) the differential pressure between the fourth Tank and the third Tank reaches the predefined set point pressure differential; or(iv) the fourth Tank pressure reaches the predefined upper set point pressure for fourth Tank; and(j) between steps “i” and “k” taking gas from the fourth Tank, compressing it with the compressor and discharging the compressed gas to the fifth Tank, andcontinuing this step until one of the following conditions are met:(i) fourth Tank experiences a pressure drop which reaches a predefined pressure drop set point for the fourth Tank, or(ii) the pressure in the fourth Tank drops to a predefined minimum set point pressure for the fourth Tank, or(iii) the differential pressure between the fifth Tank and the fourth Tank reaches the predefined set point pressure differential; or(iv) the fifth Tank pressure reaches a predefined upper set point pressure for fifth Tank; and(k) after step “j”, dispensing compressed gas from at least two tanks of the array, and during dispensing going first to the compressor and next to a vehicle storage tank,wherein during the method steps the compressor is selectively fluidly connected to selected combinations of the first, second, third, and fourth Tanks in the array by a single selector valve, wherein the selector valve has a first family of ports, a second family of ports, and a rotatable selector with a first selector conduit and a second selector conduit, wherein each family of ports have a plurality of selector ports, and wherein in a first selector position of the selector a plurality of the selector ports from the first family can be fluidly connected to a plurality of selector ports from the second family, and in a second selector position of the selector a different plurality of ports from the first family can be fluidly connected to the same plurality of ports from the second family, wherein the first selector conduit of the selector connects ports of the first family to one port in the second family of ports and the second selector conduit of the selector connects ports of the first family to another port in the second family of ports. 12. The method of claim 11, wherein the predefined set point differential pressure is about 500 psig. 13. The method of claim 12, wherein the predefined pressure differential set point drops for the first, second, third, and fourth Tanks is about 300 psig. 14. The method of claim 11, wherein in step “a” the compressor is a hermetically sealed compressor. 15. The method of claim 11, wherein the pressure inside the tanks increases in tank numerical order. 16. The method of claim 11, wherein steps “b” through “j” are performed until the tank pressures in pounds per square inch pressure for each of the tanks follow the following table: Tank NumberTank First Pressure11502650311504165052150. 17. The method of claim 11, wherein before step “k” each of the first, second, third, fourth, and fifth Tanks each reach their respective predefined upper set point pressures. 18. The method of claim 11, wherein in step “a” the compressor is a single compressor of one stage. 19. The method of claim 11, further including the step of during step “k” repeating steps “b” through “j” until the fifth Tank pressure reaches the predefined upper set point pressures for each of the first, second, third, fourth, and fifth Tanks. 20. The method of claim 11, further including the step of, during step “k”, repeating steps “b” through “j” in reverse order until the fifth Tank pressure reaches the predefined upper set point pressures for each of the first, second, third, fourth, and fifth Tanks. 21. A method of filling a tank with compressed gaseous fuel, comprising the steps of: (a) providing an array of tanks comprising a first tank,second tank,third tank,fourth tank,fifth tank, andsixth tanka compressor fluidly connected to the array;(b) before step “c”, taking gas from the first tank, compressing it with the compressor anddischarging the compressed gas to the second Tank in the array, andcontinuing this step until one of the following conditions are met:(i) first Tank experiences a pressure drop which reaches a predefined pressure drop set point for the first Tank, or(ii) the pressure in the first Tank drops to a predefined minimum set point pressure for the first Tank, or(iii) the differential pressure between the second Tank and the first Tank reaches a predefined set point pressure differential; or(iv) second Tank pressure reaches a predefined upper set point pressure for the second Tank; (c) between steps “b” and “d”, taking gas from the second Tank, compressing it with the compressor and discharging the compressed gas to the third Tank, andcontinuing this step until one of the following conditions are met:(i) second Tank experiences a pressure drop which reaches a predefined pressure drop set point for the second Tank, or(ii) the pressure in the second Tank drops to a predefined minimum set point pressure for the second Tank, or(iii) the differential pressure between the third Tank and the second Tank reaches the predefined set point pressure differential; or(iv) third Tank pressure reaches a predefined upper set point pressure for third Tank;(d) between steps “c” and “e”, taking gas from the first Tank compressing it with the compressor anddischarging compressed gas to the second Tank in the array, andcontinuing this step until one of the following conditions are met:(i) first tank experiences a pressure drop which reaches the predefined pressure drop set point for the first Tank, or(ii) the pressure in the first Tank drops to the predefined minimum set point pressure for the first Tank, or(iii) the differential pressure between the second Tank and the first Tank reaches the predefined set point pressure differential; or(iv) second Tank pressure reaches the predefined upper set point pressure for the second Tank;(e) between steps “d” and “f”, taking gas from the second Tank, compressing it with the compressor, and discharging compressed gas to the third Tank in the array until one of the following conditions are met: (i) second Tank experiences a pressure drop which reaches the predefined pressure drop set point for the second Tank, or(ii) the pressure in the second Tank drops to the predefined minimum set point pressure for the second Tank, or(iii) the differential pressure between the third Tank and the second Tank reaches the predefined set point pressure differential; or(iv) the third Tank pressure reaches the predefined upper set point pressure for third Tank;(f) between steps “e” and “g” taking gas from the third Tank, compressing it with the compressor and discharging the compressed gas to the fourth tank, andcontinuing this step until one of the following conditions are met:(i) third Tank experiences a pressure drop which reaches a predefined pressure drop set point for the third Tank, or(ii) the pressure in the third Tank drops to a predefined minimum set point pressure for the third Tank, or(iii) the differential pressure between the fourth Tank and the third Tank reaches the predefined set point pressure differential; or(iv) the fourth Tank pressure reaches a predefined upper set point pressure for fourth Tank; and(g) between steps “f” and “h”, taking gas from the first Tank compressing it with the compressor anddischarging compressed gas to the second Tank in the array, andcontinuing this step until one of the following conditions are met:(i) first tank experiences a pressure drop which reaches the predefined pressure drop set point for the first Tank, or(ii) the pressure in the first Tank drops to the predefined minimum set point pressure for the first Tank, or(iii) the differential pressure between the second Tank and the first Tank reaches the predefined set point pressure differential; or(iv) second Tank pressure reaches the predefined upper set point pressure for the second Tank;(h) between steps “g” and “i”, taking gas from the second Tank, compressing it with the compressor, and discharging compressed gas to the third Tank in the array until one of the following conditions are met: (i) second Tank experiences a pressure drop which reaches the predefined pressure drop set point for the second Tank, or(ii) the pressure in the second Tank drops to the predefined minimum set point pressure for the second Tank, or(iii) the differential pressure between the third Tank and the second Tank reaches the predefined set point pressure differential; or(iv) the third Tank pressure reaches the predefined upper set point pressure for third Tank;(i) between steps “h” and “j” taking gas from the third Tank, compressing it with the compressor and discharging the compressed gas to the fourth tank, andcontinuing this step until one of the following conditions are met:(i) third Tank experiences a pressure drop which reaches the predefined pressure drop set point for the third Tank, or(ii) the pressure in the third Tank drops to the predefined minimum set point pressure for the third Tank, or(iii) the differential pressure between the fourth Tank and the third Tank reaches the predefined set point pressure differential; or(iv) the fourth Tank pressure reaches the predefined upper set point pressure for fourth Tank; and(j) between steps “i” and “k” taking gas from the fourth Tank, compressing it with the compressor and discharging the compressed gas to the fifth Tank, andcontinuing this step until one of the following conditions are met:(i) fourth Tank experiences a pressure drop which reaches a predefined pressure drop set point for the fourth Tank, or(ii) the pressure in the fourth Tank drops to predefined minimum set point pressure for the fourth Tank, or(iii) the differential pressure between the fifth Tank and the fourth Tank reaches the predefined set point pressure differential; or(iv) the fifth Tank pressure reaches a predefined upper set point pressure for fifth Tank; and(k) between steps “j” and “l”, taking gas from the first Tank compressing it with the compressor anddischarging compressed gas to the second Tank in the array, andcontinuing this step until one of the following conditions are met:(i) first tank experiences a pressure drop which reaches the predefined pressure drop set point for the first Tank, or(ii) the pressure in the first Tank drops to the predefined minimum set point pressure for the first Tank, or(iii) the differential pressure between the second Tank and the first Tank reaches the predefined set point pressure differential; or(iv) second Tank pressure reaches the predefined upper set point pressure for the second Tank;(l) between steps “k” and “m”, taking gas from the second Tank, compressing it with the compressor, and discharging compressed gas to the third Tank in the array until one of the following conditions are met: (i) second Tank experiences a pressure drop which reaches the predefined pressure drop set point for the second Tank, or(ii) the pressure in the second Tank drops to the predefined minimum set point pressure for the second Tank, or(iii) the differential pressure between the third Tank and the second Tank reaches the predefined set point pressure differential; or(iv) the third Tank pressure reaches the predefined upper set point pressure for third Tank;(m) between steps “l” and “n” taking gas from the third Tank, compressing it with the compressor and discharging the compressed gas to the fourth tank, andcontinuing this step until one of the following conditions are met:(i) third Tank experiences a pressure drop which reaches the predefined pressure drop set point for the third Tank, or(ii) the pressure in the third Tank drops to the predefined minimum set point pressure for the third Tank, or(iii) the differential pressure between the fourth Tank and the third Tank reaches the predefined set point pressure differential; or(iv) the fourth Tank pressure reaches the predefined upper set point pressure for fourth Tank; and(n) between steps “m” and “o” taking gas from the fourth Tank, compressing it with the compressor and discharging the compressed gas to the fifth Tank, andcontinuing this step until one of the following conditions are met:(i) fourth Tank experiences a pressure drop which reaches the predefined pressure drop set point for the fourth Tank, or(ii) the pressure in the fourth Tank drops to the predefined minimum set point pressure for the fourth Tank, or(iii) the differential pressure between the fifth Tank and the fourth Tank reaches the predefined set point pressure differential; or(iv) the fifth Tank pressure reaches the predefined upper set point pressure for fifth Tank; and(o) between steps “n” and “p” taking gas from the fifth Tank, compressing it with the compressor and discharging the compressed gas to the sixth Tank, andcontinuing this step until one of the following conditions are met:(i) fifth Tank experiences a pressure drop which reaches the predefined pressure drop set point for the fifth Tank, or(ii) the pressure in the fifth Tank drops to the predefined minimum set point pressure for the fifth Tank, or(iii) the differential pressure between the sixth Tank and the fifth Tank reaches the predefined set point pressure differential; or(iv) the sixth Tank pressure reaches a predefined upper set point pressure for sixth Tank; and(p) after step “o”, dispensing compressed gas from at least two tanks of the array, and during dispensing going first to the compressor and next to a vehicle storage tank,wherein during the method steps the compressor is selectively fluidly connected to selected combinations of the first, second, third, and fourth Tanks in the array by a single selector valve, wherein the selector valve has a first family of ports, a second family of ports, and a rotatable selector with a first selector conduit and a second selector conduit, wherein each family of ports have a plurality of selector ports, and wherein in a first selector position of the selector a plurality of the selector ports from the first family can be fluidly connected to a plurality of selector ports from the second family, and in a second selector position of the selector a different plurality of ports from the first family can be fluidly connected to the same plurality of ports from the second family, wherein the first selector conduit of the selector connects ports of the first family to one port in the second family of ports and the second selector conduit of the selector connects ports of the first family to another port in the second family of ports. 22. The method of claim 21, further including the step of during step “p” repeating steps “b” through “o” until the sixth Tank pressure reaches the predefined upper set point pressures for each of the first, second, third, fourth, fifth, and sixth Tanks. 23. The method of claim 21, further including the step of, during step “p”, repeating steps “b” through “o” in reverse order until the sixth Tank pressure reaches the predefined upper set point pressures for each of the first, second, third, fourth, fifth, and sixth Tanks. 24. The method of claim 21, wherein in step “a” the compressor is a single compressor of one stage.