IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0298998
(2002-11-18)
|
발명자
/ 주소 |
- Fischer, III, Ferdinand J.
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
3 |
초록
▼
Thrusters in communication with a feedback control system are provided on a cylindrical offshore marine member, such as a spar, for reducing and/or controlling vortex-induced-vibrations, low-frequency drift oscillations due to random waves, and low-frequency wind induced resonant oscillations. The t
Thrusters in communication with a feedback control system are provided on a cylindrical offshore marine member, such as a spar, for reducing and/or controlling vortex-induced-vibrations, low-frequency drift oscillations due to random waves, and low-frequency wind induced resonant oscillations. The thrusters are provided thrust instruction from the feedback control system based on marine member displacement and current velocity.
대표청구항
▼
1. A method for protecting an offshore marine member from vibration caused by a current flowing past said member at a current velocity, wherein said member comprises one or more variable thrust thrusters, the method comprising:(a) monitoring the current velocity and the marine member for displacemen
1. A method for protecting an offshore marine member from vibration caused by a current flowing past said member at a current velocity, wherein said member comprises one or more variable thrust thrusters, the method comprising:(a) monitoring the current velocity and the marine member for displacement; and (b) activating at least one of the thrusters and varying the thrust as a function of the current velocity and marine member displacement, wherein the activating of step (b) is carried out sufficient to reduce the vibration of the marine member as the vibration is occurring. 2. A method for protecting an offshore marine member from vibration caused by a current flowing past said member at a current velocity, wherein said member comprises one or more variable thrust thrusters, the method comprising:(a) monitoring the current velocity and the marine member for displacement; and (b) activating at least one of the thrusters and varying the thrust as a function of the current velocity and marine member displacement, wherein the activating of step (b) is carried out in a manner sufficient to prevent vibration of the marine member before the vibration begins. 3. A method for protecting a moored vessel from low frequency oscillations caused by waves or wind striking the vessel, wherein the vessel comprises one or more variable thrust thrusters, the method comprising:(a) monitoring the vessel for displacement; and (b) activating at least one of the thrusters and varying the thrust as a function of the vessel displacement, wherein the activating of step (b) is carried out sufficient to reduce the vibration of the marine member as the vibration is occurring. 4. A method for protecting a moored vessel from low frequency oscillations caused by waves or wind striking the vessel, wherein the vessel comprises one or more variable thrust thrusters, the method comprising:(a) monitoring the vessel for displacement; and (b) activating at least one of the thrusters and varying the thrust as a function of the vessel displacement, wherein the activating of step (b) is carried out in a manner sufficient to prevent vibration of the marine member before the vibration begins. 5. An apparatus for protecting an offshore marine member from vibration caused by a current flowing past said member at a current velocity, the apparatus comprising:(a) one or more variable thrust thrusters positioned to provide thrust to the member; (b) a displacement sensor positioned to monitor displacement of the member; (c) a current velocity sensor positioned to monitor the current velocity; and (d) logical controller in communication with the displacement sensor and the current velocity sensor, and in communication with the one or more thrusters, wherein the controller includes instructions for generating a thruster control signal for the thruster to vary the thrust as a function of the velocity and displacement, wherein the logical controller is a proportional- differential type of controller, and wherein the logical controller further includes logic for shutting down the thruster when the oscillation is below a minimum value. 6. The apparatus of claim 5, wherein the offshore marine member is a spar.7. The apparatus of claim 5, wherein the marine member is a floating vessel.8. The apparatus of claim 5, wherein the marine member is a tension leg platform.9. The apparatus of claim 5, wherein the marine member is a riser.10. An apparatus for protecting a moored vessel from low frequency oscillations caused by waves or wind striking the vessel, the apparatus comprising:(a) one or more variable thrust thrusters positioned to provide thrust to the vessel; (b) a displacement sensor positioned to monitor displacement of the vessel; and (c) a logical controller in communication with the displacement sensor and in communication with the one or more thrusters, wherein the controller includes instructions for generating a thruster control signal for the thruster to vary the thrust as a function of displacement, wherein the logical controller is a proportional- differential type of controller, and wherein the logical controller further includes logic for shutting down the thruster when the oscillation is below a minimum value. 11. An apparatus for protecting a moored vessel from low frequency oscillations caused by waves or wind striking the vessel, the apparatus comprising:(a) one or more variable thrust thrusters positioned to provide thrust to the vessel; (b) a displacement sensor positioned to monitor displacement of the vessel; and (c) a logical controller in communication with the displacement sensor and in communication with the one or more thrusters, wherein the controller includes instructions for generating a thruster control signal for the thruster to vary the thrust as a function of displacement, wherein the logical controller is a proportional- differential type of controller, wherein the logical controller further includes logic for shutting down the thruster, when the oscillation is below a minimum value, and wherein the logical controller further includes logic for limiting the thrust to a maximum value. 12. The method of claim 1, wherein the activating of step (b) is carried out by providing instructions to the thrusters relating to at least one selected from the group consisting of timing of the activating, length of activating, force of activated thrust, and identity of activated thrusters.
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