2016 September 9 17:01
Hyundai Heavy Industries (HHI), the world’s largest shipbuilder, announced it received the second approval in principle (AIP) from DNV GL for SkyBenchTM, an innovative design for maximizing cargo loading capacity of large containerships at the SMM exhibition in Hamburg, Germany on September 8.
The classification society verifies the strength and structural analysis including the overall finite element analysis conforming to S11A rule, a partial ship analysis, an overall hatch corner’s relative deformation check, a spot fatigue check for several critical hatch corner locations, and a detailed analysis of the design with a solid model for the parking device. The first AIP HHI received in June last year at the Nor-Shipping exhibition in Oslo was its confirmation of the concept design of SkyBench.
SkyBench has a mobile accommodation block that is mounted on rails and can move over the span of two container bays. The SkyBench allows for additional storage as it utilizes the void space beneath the sliding block. Moreover, the safety of on-board crews is enhanced by the detachable design thanks to the buoyancy in case the ship sinks. The bridge and three upper decks of a “twin island” design containership can be constructed as a separate sliding block mounted on rails which can move over the length of two 40ft container bays. In combination with a resizing and relocation of fuel tanks and the utilization of the void spaces beneath the accommodation block in the traditional design, SkyBench allows the addition of two extra 20ft container bays. The resulting cargo increase amounts to 270 TEUs on a 17-row wide 10,000 TEUs ship, 350 TEUs on a 20-row wide 14,000 TEUs ship and 450 TEU on a 23-row wide 19,000 TEU ship.
It takes 10 minutes for SkyBench to operate at port, using four electric drive train units to move the block backwards from its normal position. The two 40ft side casings on which the accommodation block rests provide structural strength and holds lifeboats, provision cranes and utility rooms.