Method and apparatus for extracting energy from a fluctuating energy flow from a renewable energy source
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F15B-013/00
F16H-061/4035
F03D-009/00
F03D-011/02
F16H-061/4148
F16H-061/421
F16H-061/431
F16H-061/475
F16H-039/02
출원번호
US-0380136
(2011-05-30)
등록번호
US-9103438
(2015-08-11)
우선권정보
GB-1009013.2 (2010-05-28)
국제출원번호
PCT/EP2011/058865
(2011-05-30)
§371/§102 date
20111222
(20111222)
국제공개번호
WO2011/147996
(2011-12-01)
발명자
/ 주소
Caldwell, Niall James
Dumnov, Daniil Sergeevich
Fielding, Michael Richard
출원인 / 주소
ARTEMIS INTELLIGENT POWER LIMITED
대리인 / 주소
Lowe Hauptman & Ham, LLP
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A hydraulic pump is driven by a rotating shaft, driven in turn by a renewable energy source. A hydraulic motor drives a load and a high pressure manifold communicates between the pump, motor and an elastically deformable fluid retaining body. The pressure in the high pressure manifold is measured an
A hydraulic pump is driven by a rotating shaft, driven in turn by a renewable energy source. A hydraulic motor drives a load and a high pressure manifold communicates between the pump, motor and an elastically deformable fluid retaining body. The pressure in the high pressure manifold is measured and the net rate of displacement of working fluid by the hydraulic pump is selected responsive thereto to regulate the torque applied to the rotating shaft. The net rate of displacement of working fluid by the hydraulic motor is selected to smooth the energy flow to the load. The net rate of displacement of working fluid by the hydraulic motor is selected to regulate the pressure in the high pressure manifold to remain within an acceptable pressure range.
대표청구항▼
1. A method of operating an energy extraction device to extract energy from a fluctuating energy flow from a renewable energy source, the device comprising: a hydraulic pump driven by a rotating shaft, the rotating shaft driven by a renewable energy source, a hydraulic motor driving a load, at least
1. A method of operating an energy extraction device to extract energy from a fluctuating energy flow from a renewable energy source, the device comprising: a hydraulic pump driven by a rotating shaft, the rotating shaft driven by a renewable energy source, a hydraulic motor driving a load, at least one low pressure manifold and a high pressure manifold in fluid communication with an outlet of the hydraulic pump, an inlet of the hydraulic motor and an elastically deformable fluid retaining body, the hydraulic pump and hydraulic motor each comprising a plurality of working chambers of cyclically varying volume and a plurality of valves for regulating a volume of working fluid displaced by each said working chamber between each said working chamber and each said manifold, at least one valve associated with each said working chamber being an electronically controlled valve, said electronically controlled valves being operated to select the volume of working fluid displaced by each said working chamber on each cycle of said working chamber and thereby regulate a net rate of displacement of working fluid by each of the hydraulic pump and the hydraulic motor, the method comprising:measuring a pressure in the high pressure manifold,selecting the net rate of displacement of working fluid by the hydraulic pump responsive to said measured pressure to regulate a torque applied to said rotating shaft,selecting the net rate of displacement of working fluid by the hydraulic motor to smooth the energy flow to the load, andfurther selecting the net rate of displacement of working fluid by the hydraulic motor to regulate the pressure in the high pressure manifold to remain within an acceptable pressure range,whereinthe acceptable pressure range comprises a first range and one or more second ranges, either higher or lower than the first range, andthe pressure within the high pressure manifold is regulated more strongly when the pressure is within the or each second range than in the first range by virtue of the net rate of displacement of working fluid by the hydraulic motor being varied, to change the pressure in the high pressure manifold, responsive to the same magnitude of pressure change in the high pressure manifold, by a larger amount in the or each second range than in the first range. 2. A method according to claim 1, wherein the strength of the pressure regulation increases progressively as the pressure moves further into the or each second range. 3. A method according to claim 1, wherein the pressure within the high pressure manifold is substantially unregulated when the pressure is within the first range. 4. A method according to claim 3, wherein when the pressure within the high pressure manifold is within the first range, the net rate of displacement of working fluid by the motor is selected without regard to the effect of the net rate of displacement of working fluid by the motor on the pressure within the high pressure manifold. 5. A method according to claim 1, wherein the net rate of displacement of working fluid by the hydraulic motor is selected dependent on the pressure within the high pressure manifold and the selected net rate of displacement of working fluid by the hydraulic motor changes by a greater amount for a given change in pressure within the high pressure manifold in the or each second range than in the first range. 6. A method according to claim 1, wherein the pressure in the high pressure manifold is regulated towards a target pressure, or range of pressures. 7. A method according to claim 6, wherein the pressure is regulated towards the target pressure, or target range of pressures, more strongly when the pressure within the high pressure manifold is within the or each second range than within the first range. 8. A method according to claim 6, wherein the target pressure, or range of pressures, is variable. 9. A method according to claim 6, comprising selecting a target pressure or range of pressures within the high pressure manifold responsive to one or more characteristics of the fluctuating energy flow, the hydraulic pump, the hydraulic motor, the elastically deformable fluid retaining body, or the load. 10. A method according to claim 6, wherein the target pressure or range of pressures is changed in anticipation of energy being received from the fluctuating energy source at a rate exceeding a threshold or to cause the pressure within the high pressure manifold to exceed a threshold. 11. A method according to claim 1, wherein the acceptable pressure range is variable. 12. A method according to claim 11, wherein the acceptable pressure range is varied according to a function comprising one or more of the current rotation rate of the rotating shaft, or the characteristics of the fluctuating energy flow. 13. A method according to claim 1 wherein, when the pressure exceeds a threshold, action is taken to reduce the net rate of displacement of working fluid by the hydraulic pump. 14. A method according to claim 13, wherein when the pressure exceeds the threshold, the energy extraction device is controlled to reduce the torque transmitted to the rotating shaft by the renewable energy source. 15. A method according to claim 1, wherein the torque applied to the rotating shaft is regulated according to a function comprising one or more of the current rotation rate of the rotating shaft and the rate of change of the rotation rate of the rotating shaft. 16. A method according to claim 1, wherein the operation of said electronically controlled valves is adjusted to compensate for one or more of compression or leakage of the working fluid or energy losses caused by flow of the working fluid. 17. A method according to claim 1, wherein the hydraulic motor comprises a plurality of hydraulic motors. 18. A method according to claim 1, wherein a smoothing calculation is executed comprising the steps of calculating the energy extracted from the fluctuating energy flow by the energy extraction device, calculating a smoothed version thereof, and selecting the net rate of displacement of working fluid by the hydraulic motor responsive to said smoothed version. 19. An energy extraction device for extracting energy from a fluctuating energy flow from a renewable energy source, the device comprising: a controller, a hydraulic pump driven by a rotating shaft, the rotating shaft driven by a renewable energy source, a hydraulic motor driving a load, at least one low pressure manifold, a high pressure manifold in fluid communication with an outlet of the hydraulic pump, an inlet of the hydraulic motor and an elastically deformable fluid retaining body, a pressure sensor for measuring the pressure in the high pressure manifold, and the hydraulic pump and hydraulic motor each comprising a plurality of working chambers of cyclically varying volume and a plurality of valves for regulating the net displacement of working fluid between each working chamber and each manifold, at least one valve associated with each working chamber being an electronically controlled valve, said electronically controlled valves being controllable by the controller to select the volume of working fluid displaced by each said working chamber on each cycle of working chamber volume and thereby regulate the net rate displacement of working fluid by each of the hydraulic pump and the hydraulic motor, wherein the controller is operable to cause the energy extraction device to operate according to the method of claim 1. 20. A non-transitory computer readable storage medium comprising program code instructions which, when executed by a controller of an energy extraction machine, is configured to cause the energy extraction machine to carry out the method of claim 1. 21. A method of operating an energy extraction device to extract energy from a fluctuating energy flow from a renewable energy source, the device comprising: a hydraulic pump driven by a rotating shaft, the rotating shaft driven by a renewable energy source, a hydraulic motor driving a load, at least one low pressure manifold and a high pressure manifold in fluid communication with an outlet of the hydraulic pump, an inlet of the hydraulic motor and an elastically deformable fluid retaining body, the hydraulic pump and hydraulic motor each comprising a plurality of working chambers of cyclically varying volume and a plurality of valves for regulating a volume of working fluid displaced by each said working chamber between each said working chamber and each said manifold, at least one valve associated with each said working chamber being an electronically controlled valve, said electronically controlled valves being operated to select the volume of working fluid displaced by each said working chamber on each cycle of said working chamber and thereby regulate a net rate of displacement of working fluid by each of the hydraulic pump and the hydraulic motor, the method comprising:selecting the net rate of displacement of working fluid by the hydraulic pump to regulate a torque applied by the hydraulic pump to said rotating shaft,selecting the net rate of displacement of working fluid by the hydraulic motor to smooth a rate of power transmission to the load, the elastically deformable fluid retaining body receiving and outputting working fluid from and to the high pressure manifold as required, andregulating a pressure in the high pressure manifold to remain within an acceptable pressure range,wherein the acceptable pressure range comprises a first range and one or more second ranges, either higher or lower than the first range, andthe pressure within the high pressure manifold is regulated more strongly when the pressure is within the or each second range than in the first range by virtue of the net rate of displacement of working fluid by the hydraulic motor being varied, to change the pressure in the high pressure manifold, responsive to the same magnitude of pressure change in the high pressure manifold, by a larger amount in the or each second range than in the first range. 22. A method of operating an energy extraction device to extract energy from a fluctuating energy flow from a renewable energy source, the device comprising: a hydraulic pump driven by a rotating shaft, the rotating shaft driven by a renewable energy source, a hydraulic motor driving a load, at least one low pressure manifold and a high pressure manifold in fluid communication with an outlet of the hydraulic pump, an inlet of the hydraulic motor and an elastically deformable fluid retaining body, the hydraulic pump and hydraulic motor each comprising a plurality of working chambers of cyclically varying volume and a plurality of valves for regulating a volume of working fluid displaced by each said working chamber between each said working chamber and each said manifold, at least one valve associated with each said working chamber being an electronically controlled valve, said electronically controlled valves being operated to select the volume of working fluid displaced by each said working chamber on each cycle of said working chamber and thereby regulate a net rate of displacement of working fluid by each of the hydraulic pump and the hydraulic motor, the method comprising:measuring a pressure in the high pressure manifold, selecting the net rate of displacement of working fluid by the hydraulic pump responsive to said measured pressure to regulate a torque applied to said rotating shaft, the elastically deformable fluid retaining body receiving and outputting working fluid equivalent to the difference between the fluctuating energy flow and the energy flow through the hydraulic motor from and to the high pressure manifold as required, andin a first pressure range selecting the net rate of displacement of working fluid by the hydraulic motor responsive to said measured pressure to provide a smoothed energy flow to the load, andin at least one second pressure range selecting the net rate of displacement of working fluid by the hydraulic motor responsive to said measured pressure to regulate the pressure towards the first pressure range.
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