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http://dx.doi.org/10.5574/KSOE.2016.30.6.526

Risk-based Design of On-board Facility for Lifting System Field Test of Deep-sea Mining System  

Cho, Su-gil (Technology Center for Offshore Plant Industries, KRISO)
Park, Sanghyun (Technology Center for Offshore Plant Industries, KRISO)
Oh, Jaewon (Technology Center for Offshore Plant Industries, KRISO)
Min, Cheonhong (Technology Center for Offshore Plant Industries, KRISO)
Kim, Seongsoon (Technology Center for Offshore Plant Industries, KRISO)
Kim, Hyung-Woo (Technology Center for Offshore Plant Industries, KRISO)
Yeu, Tae Kyung (Technology Center for Offshore Plant Industries, KRISO)
Jung, Jung Yeul (Technology Center for Offshore Plant Industries, KRISO)
Bae, Jaeil (Yooyoun ENE Co.,LTD.)
Hong, Sup (Technology Center for Offshore Plant Industries, KRISO)
Publication Information
Journal of Ocean Engineering and Technology / v.30, no.6, 2016 , pp. 526-534 More about this Journal
Abstract
This study had the goal of designing onboard structures for a pre-pilot mining test (PPMT), which is required for the commercialization of the deep-sea mining industry. This PPMT is planned to validate the performance of a hydraulic lifting system and verify the concept of operating through a moon-pool in the east sea, Korea. All of the onboard equipment and facility were designed by KRISO. Because the test was performed at the first development, it is difficult to determine what risk will occur in the facility. Therefore, risk-based design is required in the facility for the PPMT, which includes the facility layout, failure mode and effect analysis (FMEA), and risk reduction plan. All of the expected performances of the lifting system itself and the onboard facilities were qualitatively validated using the risk-based design.
Keywords
Deep-sea mining system; Failure mode and effect analysis; Lifting system; On-board facility design; Risk-based design;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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