Remotely reconfigurable high pressure fluid passive control system for controlling bi-directional piston pumps as active sources of high pressure fluid, as inactive rigid structural members or as isolated free motion devices
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04B-049/00
C02F-001/44
F04B-011/00
F15B-007/02
F04B-053/14
F04B-053/10
F04B-049/22
F04B-023/06
F04B-009/117
F04B-005/02
F03B-013/20
C02F-103/08
출원번호
US-0804426
(2017-11-06)
등록번호
US-10030645
(2018-07-24)
발명자
/ 주소
Knowles, Kenneth A.
Murtha, Robert C.
Speight, Christina
출원인 / 주소
Murtech, Inc.
대리인 / 주소
Caesar Rivise, PC
인용정보
피인용 횟수 :
0인용 특허 :
49
초록▼
A bi-directional pump system that can be configured for a plurality of operating modes. The bi-directional pump system includes a plurality of bi-directional pumps each having their own valving system that are connected to a common high pressure manifold, a low pressure manifold and a suction manifo
A bi-directional pump system that can be configured for a plurality of operating modes. The bi-directional pump system includes a plurality of bi-directional pumps each having their own valving system that are connected to a common high pressure manifold, a low pressure manifold and a suction manifold. Via the respective valve systems, each pump can be configured into: (1) a single-acting pumping mode; (2) a double-acting pumping mode; (3) an inactive free motion mode; and (4) an inactive rigid mode. One exemplary application of the bi-directional pump system is on an articulated wave energy conversion system that consists of three floating barges: a front barge, a center barge and a rear barge where the front barge and center barge are hingedly connected as are the center barge and the rear barge. A first set of the bi-directional pumps span the first hinge connection and the second set of bi-directional pumps span the second hinge connection. The bi-directional pump system intakes sea water and, using wave energy, outputs a high pressure flow of sea water for water desalination and/or for driving electrical generators.
대표청구항▼
1. A method for permitting a plurality of parallel-acting bi-directional pumps to be configured into a plurality of operational modes, the plurality of parallel-acting bi-directional pumps being positioned between barges of an articulating barge wave energy converter system positioned in sea water t
1. A method for permitting a plurality of parallel-acting bi-directional pumps to be configured into a plurality of operational modes, the plurality of parallel-acting bi-directional pumps being positioned between barges of an articulating barge wave energy converter system positioned in sea water that experiences wave motion, said method comprising: providing a plurality of bi-directional pumps, each bi-directional pump having a single piston and piston rod that can translate within a cylinder in two opposite directions, each piston separating said corresponding cylinder into two chambers, each piston displacing sea water located in each chamber when said piston is in motion due to external forces acting through each piston rod and each cylinder;coupling each chamber, through a valve network, to a high pressure manifold, a low pressure manifold and a suction manifold, said high pressure manifold having an output for delivering the high pressure sea water to a desalination system and wherein said suction manifold provides a sea water input into said bi-directional pump system; andcontrolling said valve network so that each one of said plurality of bi-directional pumps can be configured to deliver high pressure sea water from one of a single-acting pumping mode and a double-acting pumping mode, said single-acting pumping mode delivering high pressure sea water to said desalination system during piston motion in one of said two opposite directions and wherein said double-acting pumping mode delivering high pressure sea water to said desalination system during piston motion in both of said two opposite directions, said piston motion in either of said modes occurring by movement of said barges due to wave motion. 2. The method of claim 1 further comprising the step of isolating at least one bi-directional pump's cylinder from the cylinders of the remaining cylinders of said plurality of bi-directional pumps, said step of isolating said at least one bi-directional pump's cylinder comprises configuring the valve network of said at least one bi-directional pump to permit said piston of said at least one bi-directional pump to be displaced in said two opposite directions without contributing to said high pressure sea water output by said another bi-directional pump. 3. The method of claim 2 further comprising the step of rigidizing all of said plurality of bi-directional pumps for preventing the movement of the respective pistons in each of said bi-directional pumps, said step of rigidizing all of said plurality of bi-directional pumps comprises configuring said valve network to prevent the displacement of said respective pistons in said corresponding cylinders using trapped sea water. 4. The method of claim 1 wherein one of said two opposite directions is defined as an extension wherein each piston is driven in a direction that includes the piston rod and wherein maximum pressure in said high pressure manifold is maintained by having at least one accumulator, coupled to said high pressure manifold, receive a portion of said high pressure flow when said piston is extended. 5. The method of claim 4 further comprising the step of flushing of a suction filter that forms a portion of said suction manifold, said flushing step being accomplished by coupling at least one relief valve in liquid communication with said high pressure manifold, said at least one relief valve porting an excess sea water back to said suction manifold for accomplishing said flushing occurring when said maximum pressure in said high pressure manifold is exceeded. 6. The method of claim 1 wherein one of said chambers of each of said plurality of bi-directional pumps comprises an annular volume due to the presence of said piston rod therein and the other one of said chambers of each of said plurality of bi-directional pumps comprises a cylindrical volume thereby resulting in an excess sea water being generated by said cylindrical volume, and wherein said method further comprises at least one accumulator in liquid communication with said low pressure manifold, said at least one accumulator receiving said excess sea water from, and restoring said excess fluid to, said plurality of bi-directional pumps during retraction and extension of said pistons therein. 7. The method of claim 4 further comprising the step of flushing of a suction filter that forms a portion of said suction manifold, said flushing step being accomplished by coupling at least one relief valve in fluid communication with said low pressure manifold, said at least one relief valve porting an excess sea water back to said suction manifold for accomplishing said flushing occurring when said maximum pressure in said low pressure manifold is exceeded. 8. The method of claim 1 wherein said desalination system comprises a plurality of reverse osmosis tubes. 9. A pump system having a plurality of parallel-acting bi-directional pumps that can be configured into a plurality of operational modes and wherein the plurality of pumps are positioned between barges of an articulating barge wave energy converter system positioned in sea water that experiences wave motion, said pump system comprising: a bi-directional pump having a single piston and piston rod that can translate within a single cylinder in two opposite directions, said piston separating said cylinder into two chambers, said piston displacing sea water located in each chamber when said piston is in motion due to external forces acting through said piston rod and said cylinder;each chamber being in liquid communication through a valve network to a high pressure manifold, a low pressure manifold and a suction manifold, said high pressure manifold having an output for delivering high pressure sea water to a desalination system and wherein said suction manifold provides a sea water input into said pump system; andwherein said valve network can be configured to deliver high pressure sea water from one of a single-acting pumping mode and a double-acting pumping mode, said single-acting pumping mode delivering high pressure sea water to said desalination system during piston motion in one of said two opposite directions and wherein said double-acting pumping mode delivers high pressure sea water to said desalination system during piston motion in both of said two opposite directions. 10. The pump system of claim 9 wherein said desalination system comprises a plurality of reverse osmosis tubes. 11. A pump system having a plurality of parallel-acting bi-directional pumps that can be configured into a plurality of operational modes and wherein the plurality of pumps are positioned between barges of an articulating barge wave energy converter system positioned in sea water that experiences wave motion, said pump system comprising: a first bi-directional pump having a single piston and piston rod that can translate within a single cylinder in two opposite directions, said piston separating said cylinder into two chambers, said piston displacing sea water located in each chamber when said piston is in motion due to external forces acting through said piston rod and said cylinder;each chamber being in liquid communication through a first valve network to a high pressure manifold, a low pressure manifold and a suction manifold, said high pressure manifold having an output for delivering the high pressure sea water to a desalination system and wherein said suction manifold provides a sea water input into said pump system;wherein said valve network can be configured to deliver high pressure sea water from one of a single-acting pumping mode and a double-acting pumping mode, said single-acting pumping mode delivering high pressure sea water to said desalination during piston motion in one of said two opposite directions and wherein said double-acting pumping mode delivers high pressure sea water to said desalination system during piston motion in both of said two opposite directions; anda second bi-directional pump having a respective single piston, piston rod, single cylinder having two chambers and a valve network through which said two chambers of said second bi-directional pump are in liquid communication with said high pressure manifold, said low pressure manifold and said suction manifold and wherein said valve network of said second bi-directional pump comprises a valve network isolation configuration that isolates said second bi-directional pump's cylinder from the cylinder of said first bi-directional pump, said valve network isolation configuration permitting said piston of said second bi-directional pump to be displaced in said two opposite directions without contributing to said high pressure sea water output. 12. The pump system of claim 11 wherein said desalination system comprises a plurality of reverse osmosis tubes. 13. A pump system having a plurality of parallel-acting bi-directional pumps that can be configured into a plurality of operational modes and wherein the plurality of pumps are positioned between barges of an articulating barge wave energy converter system positioned in sea water that experiences wave motion, said pump system comprising: a first bi-directional pump having a single piston and piston rod that can translate within a single cylinder in two opposite directions, said piston separating said cylinder into two chambers, said piston displacing sea water located in each chamber when said piston is in motion due to external forces acting through said piston rod and said cylinder;each chamber being in liquid communication through a first valve network to a high pressure manifold, a low pressure manifold and a suction manifold, said high pressure manifold having an output for delivering the high pressure sea water to a desalination system and wherein said suction manifold provides a sea water input into said pump system;wherein said valve network can be configured to deliver high pressure sea water from one of a single-acting pumping mode and a double-acting pumping mode, said single-acting pumping mode delivering high pressure liquid to said desalination system during piston motion in one of said two opposite directions and wherein said double-acting pumping mode delivers high pressure sea water to said desalination system during piston motion in both of said two opposite directions; anda second bi-directional pump having a respective piston, piston rod, cylinder having two chambers and a valve network through which said two chambers of said second bi-directional pump are in liquid communication with said high pressure manifold, said low pressure manifold and said suction manifold and wherein said valve networks of said first and second bi-directional pumps comprise a valve network rigidizing configuration that prevents the movement of the respective pistons in each of said bi-directional pumps. 14. The pump system of claim 13 wherein said desalination system comprises a plurality of reverse osmosis tubes.
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