OE2017 PREVIEW
scenarios that can cause this to happen: one when lifting in air and another when lifting in water. The in-air incidents typically occur when there is rigging on the hook, but with little or no load attached. The hook may swing around violently, and the rigging thrown up into a position where it returns between the hook nose and the safety latch, thus releasing accidentally.
A similar release mechanism can occur subsea. In this scenario a heaving vessel may cause the load being lifted to go light and cause the rigging to slacken. This is particularly relevant to lighter loads with a larger horizontal area, and in conjunction with higher vessel heave and an increased speed of crane deployment.
There have also been reported releases of smaller synthetic round slings from self-locking ‘safety hooks’ where the sling has managed to slip between the tip of the hook and the locked gate due to the design not taking account of this failure mode and the manufacturing tolerance between the parts.
The snagging of hooks and accidental load detachment has been well documented and for this reason the use of the ‘single point’ hook - including the ROV snap hook - was identified as a significant hazard to diving operations. As a result the IMCA document recommends using self-locking or ‘safety hooks’ and not ‘single point’ hooks. This has long been established practice for diver operations. historically there is a lack of alternative hooks for diverless operations that are as quick and easy for ROV use, and this has meant that the ROV snap hook continues to be widely used.
The risks described above have typically been tolerated for diverless operations, and there is evidence that the acceptance of incidents has often been normalised within the subsea industry.
ALTErNATIvES TO ThE rOv ‘SNAP hOOk’ There are alternatives to the ROV snap
hook, all of which generally work well for rigging release type operations. These include the ROV shackle and other proprietary type shackles and self- locking hooks. however those alternatives sacrify the “ease of use” of the snap hook resulting in increased time for manipulation.
Jim Battersby, domain expert and Subsea 7’s Specialist Lifting and Rigging Engineer explains: “in our company we have focussed on safety, and have accepted the “time penalty” and increased costs, in order to maintain safety at a high level by using slower to operate but more secure equipment (like shackles and safety hooks) for tasks where snap- hooks would have traditionally been used in the past”.
The attachment of rigging using ROV’s has always been a challenge and it is this design issue that has provided the impetus for Subsea 7 and RUD to work together to design a product that meets both the operational safety and speed of use requirements that are currently missing from the market.
The speed of use requirement is important as the vessel’s operational cost is significantly high; any time saved on critical path ROV operations will have a cumulative saving in the long term. Over an extended period of operational use this can potentially accrue a large saving. In addition to the safety aspects and speed of use, important requirements from the user’s perspective were operational robustness robust and reliability.
The development of the new hook was completed within two years by German chain manufacturer RUD Ketten in cooperation with Subsea 7, who provided the user requirements and validated the design in all its stages.
During the design phase the simplicity, functionality, and robustness of the hook were put into focus. According to Subsea 7 the resulting hook fulfils all demanded and formulated requirements, and will set
the new standard for safe and reliable lifting hooks in subsea operations.
The RUD ROV hook is a completely new style of hook: one that has never been seen before. It features an innovative outwards opening safety latch and a patented mechanism with only two moving parts.
“The simple but reliable functionality is based on the leveraging principle of rigid body physics to translate the movement of a trigger, when it is pressed or pulled by a lanyard into the opening of the hook’s gate” says David Jaramillo, Manager Business Development Marine/Offshore at RUD Ketten and Leader of the project.
The design was tested and proven on real life subsea operations. According to Kenny Morrison, Operations Manager UK/ Canada at Subsea 7 “the new RUD hook provides a greatly enhanced degree of load security compared to traditional snap hooks, while retaining the snap hook’s ease of use for both connection and disconnection tasks. The initial prototypes were enthusiastically received by our offshore teams during testing as they can be operated with a single manipulator, which can significantly speed up operations. Operational feedback also resulted in the design being further optimised for use with grabber arms as well as manipulators”.
All hook main parts are manufactured from forged steel, with a safety factor 4:1 with respect to its working load limit, 100% crack-tested, and withstanding a dynamic loading of more than 20,000 load cycles according to European Standard EN 1677. The hook will be initially available as a 10t WLL capacity hook. however, other sizes are planned and will be developed based on further demand from the market.
www.rud.co.uk September 2017 |
www.sosmagazine.biz | p23
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