0027-nd rev 11.2 8-jul-16 guidelines for marine lifting and lowering operations
9.3 SPREADER BARS AND SPREADER FRAMES 9.3.1
The design of spreader bars and spreader frames shall be carried out according to Section 11. The
spreader bars and spreader frames shall be considered as a lift point and subject to the same
requirements (e.g. consequence factor).
9.3.2
Eccentricities considering maximum possible deviations in sling angles should be considered in
spreader bar and frame verifications.
9.3.3
The design loads on the spreader bar or spreader frame shall account for the maximum dynamic
rigging loads determined in Section 6.
9.3.4
Where a spreader bar or spreader frame is used in a subsea application, the tubulars should be open
ended or have flooding/vent holes to avoid hydrostatic loading. Where this is not provided, then the
effect of hydrostatic loading shall be considered on the spreader bar with the hydrostatic loads also
having the consequence factor applicable for lift points applied to the loading. The design hydrostatic
depth shall include a margin of the greater of 30 m or 10% of the water depth.
9.3.5
For spreader bars or frames which are not free flooding, the maximum depth rating shall be clearly
marked on the spreader bar or spreader frame.
9.4 OTHER LIFTING EQUIPMENT 9.4.1
Other lifting equipment is defined as all elements transferring loads between the hook and the object
lift points; e.g. chains, rings, hooks, links, swivels, sheave blocks, lifting beams and heave
compensators.
9.4.2
Other lifting equipment shall be suitable for the maximum dynamic rigging loads determined in Section
5.
9.5 FIBRE ROPE REPLOYMENT SYSTEMS 9.5.1
Fibre rope deployment systems may be used for lowering structures to the seabed to reduce weight.
11
