Engineering:Heave compensation
Heave compensation is move compensator technology applied to minimizing the vertical movement of a load supported by lifting gear mounted on a heaving platform. Techniques include active heave compensation and passive heave compensation—the two traditional types of heave compensation—as well as balanced heave compensation. Devices that perform heave compensation are known as heave compensators.
Description
Heave compensation is move compensator technology used to minimize the movement of a load in one direction. This direction is often vertical, as for a load supported by lifting gear mounted on a heaving platform. In offshore drilling, heave compensation is used to reduce the impact on the drill system from motions, including those of waves and the vessel.[1][2]
Types
There are two traditional basic types of heave compensation are active heave compensation and passive heave compensation. Balanced heave compensation is also used, and differs from the two traditional approaches.
Active heave compensation
Active heave compensation has a control system that uses power to drive the lifting gear to keep the load stabilized along the vertical axis to compensate for any movement of the platform specific point, using power to gain positional accuracy.
Passive heave compensation
Passive heave compensation uses a relatively soft spring which isolates the load from most of the vertical force variation to reduce transmissibility of transient loads.
Balanced heave compensation
Balanced heave compensation converts the non-linear force of a gas spring or hydro-pneumatic spring into an adjustable, substantially linear force supporting the load.
Compensators
A heave compensator is a kind of motion compensator. Whereas most motion compensators will compensate for movement in all directions, the heave compensator will compensate for movement in only one direction, for instance, for vertical movement. In practice, the words motion compensator and heave compensator are used interchangeably. Sensor technologies being used are inertial sensors and GNSS (example: iMAR Navigation) or image processing.
The simplest motion compensator is the anchor chain of a ship. Not only does the anchor prevent the ship from drifting, but the chain itself dampens the movement of the ship due to undulating motion of the waves. Generally, motion compensators are implemented as springs. For very large forces (dozens to hundreds of tonnes), the springs are implemented as gas springs: hydropneumatic devices — a plunger cylinder buffered by a volume of gas.
Examples of heave compensators include:
- Drill string compensators
- Riser tensioners
- Conductor tensioners
- Guideline tensioners
More advanced heave compensated systems are often specified as systems with passive heave compensation or active heave compensation or combinations of these. A new approach to advanced heave compensation systems is offered by balanced heave compensation, increasing safety while lowering energy consumption and spring adjustment times.
References
- ↑ Albers, P. (2010-06-10) (in en). Motion Control in Offshore and Dredging. Springer Science & Business Media. pp. 206. ISBN 978-90-481-8803-1. https://books.google.com/books?id=2SAJEAB5aqkC&dq=Heave+compensation&pg=PT214.
- ↑ Fang, Hsai-Yang (1990-12-31) (in en). Foundation Engineering Handbook. Springer Science & Business Media. pp. 76. ISBN 978-0-412-98891-2. https://books.google.com/books?id=X8hEt3l1SPQC&dq=Heave+compensation&pg=PA76.
Original source: https://en.wikipedia.org/wiki/Heave compensation.
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