Conical structures in ice: Relevant relationships for ISO 19906

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Proceedings titleProceedings of the International Conference on Port and Ocean Engineering under Arctic Conditions, POAC
Conference23rd International Conference on Port and Ocean Engineering under Arctic Conditions, POAC 2015, 14 June 2015 through 18 June 2015
SubjectBridge piers; Drilling platforms; Meteorological problems; Numerical models; Ocean engineering; Offshore drilling; Offshore structures; Offshore wind turbines; Safety engineering; Wind turbines; Compressive failure; Conical structures; Failure patterns; Ice covered waters; Ice thickness; Provide guidances; Structure geometry; Vertical surface; Ice
AbstractConical shapes are often chosen for structures that are exposed to floating ice, such as offshore drilling platforms, bridge piers and offshore wind turbine foundations. The flexural ice failure promoted by the shape of a cone can lead to lower forces on the structure than compressive failure, which would take place if ice is to encounter a vertical surface. In spite of the wide use of conical structures, many aspects of their performance in ice covered waters remain poorly understood. For example, the ISO 19906 Arctic Offshore Structures standard does not provide guidance with respect to ridge keel loading on cones, or the height to which ice could ride up on a conical structure. With the planned revision of that document presently beginning, it is important to address the guidance gaps in order to include new insights in the revised standard. Previous work by the authors employed a numerical model of ice dynamics in order to predict ice failure patterns and forces on various conical structures. The present work extends those studies and predicts the extent of ice ride-up on the structures; the roles of the waterline width of the structure and ice thickness are discussed. The resulting ice force estimates are comparable to those predicted by an approach recommended in ISO 19906. Both the plastic and elastic beam-bending methods recommended by ISO 19906 for determining ice actions on conical structures require an initial assumption of the maximum height of accumulated rubble. Little guidance is given in ISO 19906, except to note that this height depends on the structure geometry and ice regime. For the present calculations, the chosen rubble height for each ice load calculation is based on the results of the corresponding numerical model run. Previous numerical studies by the authors have also been reviewed and the estimates of ice ride-up heights summarized. Numerical simulations could be expanded to produce a comprehensive range of ride-up values to support users of ISO 19906.
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AffiliationNational Research Council Canada (NRC-CNRC); Ocean, Coastal and River Engineering
Peer reviewedYes
NPARC number21277084
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Record identifier1df724a6-3400-40c6-8fa6-a23504fa5743
Record created2015-11-23
Record modified2016-05-09
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