Abstract
In designing a floating offshore production system to operate in a region with risk of impacts from icebergs, the effectiveness of management and avoidance of detected icebergs may be considered when determining design ice loads. Management can include deflection of encroaching icebergs through towing or use of water cannon. Avoidance would typically consist of disconnecting the floater and moving off site for cases when an iceberg cannot be managed, but could also include moving off site for periods with high numbers of icebergs. There may be grounds for remaining on site in certain cases (e.g., small icebergs in low sea states) if it can be clearly demonstrated that there are no serious risks. This paper discusses issues involved when determining guidelines for remaining on site, including relevant standards and limits states, trade-offs between ice strengthening and operational requirements, and considerations when presented with a threat by a specific iceberg and set of environmental conditions. A probabilistic approach is presented for establishing operational criteria for disconnection that will still ensure target reliabilities with respect to iceberg impact loads are achieved.
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References
Carter J, Daley C, Fuglem M, Jordaan I, Keinonen A, Revill C, Butler T, Muggeridge M, Zou B (1995) Maximum Bow force for Arctic shipping pollution prevention regulations - phase II. Memorial University of Newfoundland, Ocean Engineering Research Centre. Submitted for Canadian Coast Guard Arctic Ship Safety
C-CORE. 2017. Iceberg Load Software, theory manual. C-CORE report R-17-026-1190. NEED REF TO THIS
Crocker G (1993) Size distributions of bergy bits and growlers calved from deteriorating icebergs. Cold Regions Science and Technology, Vol 22:113–119
Crocker G, Cammaert AB (1994) Measurements of bergy bit and growler populations off Canada's east coast. IAHR Ice Symposium, Trondheim, Norway 1:167–176
DNV GL (2016) Determination of structural capacity by non-linear finite element analysis methods, DNVGL-RP-C208
DNV GL (2018) Glacial ice impact, DNV GL Report No.: 2017–0425 prepared for Petroleumstilsynet
Dobrocky Seatech Ltd. (Dobrocky), (1984), Mobil Hibernia Development Studies 1984 Iceberg Field Survey. Prepared for Mobil Oil Canada, Ltd. on behalf of the Joint Venture Participants
Fuglem, M. (1997). Decision-making for offshore resource development. PhD Thesis, Memorial University
Fuglem, M., and A. Younan. (2016). A 3D time-domain model for iceberg impacts with offshore platforms. OTC-27359-MS.
Habib, K., Hicks, M., Stuckey, P. and King, T. 2016. A revised basis for iceberg areal density values for risk analysis, OTC-27369
ISO. (2019). ISO 19906:2019(E), Petroleum and natural gas industries - Arctic Offshore Structures. International Standard
Ice Engineering Ltd., (1981), Mobil Hibernia Development Studies 1981 Iceberg Field Survey. Vol. A. Prepared for Mobil Oil Canada, Ltd. on behalf of the Joint Venture Participants
Ice Engineering Ltd., (1982), Mobil Hibernia Development Studies 1982 Iceberg Field Survey. Prepared for Mobil Oil Canada, Ltd. on behalf of the Joint Venture Participants
Ice Engineering Ltd., (1983a), Mobil Hibernia Development Studies 1983 Iceberg Field Survey. Prepared for Mobil Oil Canada, Ltd. on behalf of the Joint Venture Participants
Ice Engineering Ltd., (1983b), A survey of Icebergs in the Straight of Belle Isle. Prepared for Bedford Institute of Oceanography
Ice Engineering Ltd., (1984), Iceberg Survey- Grand Banks-Hibernia. Prepared for Bedford Institute of Oceanography
Ice Engineering Ltd., (1985), Iceberg Survey - Grand Banks-Hibernia, Prepared for Bedford Institute of Oceanography
Johnson M, Ryan J (1991) A radar performance prediction model for iceberg detection. In: In proceedings of the 11th international conference on port and ocean Engineering under Arctic conditions. Canada, St. John’s
Jordaan I (2001) Mechanics of ice–structure interaction. Eng Fract Mech 68(17–18)
Jordaan, I., Clark, P. and Ralph, F., (2006) Design of Floating Production, Storage, and Offloading (FPSO) Systems for Eastern Canada, presentation at forum decision making involving spatially distributed systems, international forum on Engineering decision making, April 26–29, 2006 in Lake Louise, Canada
Jordaan IJ, Li C, Mackey T, Stuckey P, Sudom D, Taylor R (2007) Ice data analysis and mechanics for design load estimation, final report, prepared for NSERC. C-CORE, Chevron Canada Resources, National Research Council of Canada, Petro-Canada and Husky Energy
Jordaan, I., O'Rourke, B., Turner, J., Moore, P., and Ralph, F. (2016). Estimation of ice loads using mechanics of ice failure in compression. OTC-27387-MS
King, T., 2018, Facility side-tracking for iceberg risk management, OTC-29096-MS
Lever, J. and Attwood, D. 1988 The influence of shape on iceberg wave-induced velocity statistics, OMAE
Lever J, Attwood D, Sen D (1988) Factors affecting the prediction of wave-induced iceberg motion. Cold Reg Sci Technol 1988(15):177–190
Lever J, Colbourne B, Mak L (1989) Model study of the wave-driven impact of bergy bits with a semi-submersible platform. J Offshore Mech Arct Eng 112(4):313–322
Liferov, P., Le Marechal, G., Albertini, M., Metge, M. and ter Brake, E. (2011) Approach to performance, operability and risk assessment of the shtokman floating platform in Ice OTC 22100
Matskevitch D (1997) Eccentric impact of an ice feature: non-linear model. Cold Reg Sci Technol 26(1):55–66
McGuire, P., Younan, A., Wang, Y., Bruce, J., Gandi, M., King, T., Keeping, K., Regular, K., 2016, Smart Iceberg Management System – Rapid Iceberg Profiling System, OTC-27473-MS
McKenna R, Ralph F, Power D, Jordaan I, Churchill S (2003) Modeling ice management strategy. In: In proceedings of the 17th international conference on port and ocean Engineering under Arctic conditions (POAC03). Norway, Trondheim
MEDS (1997). Canadian Offshore Oil and Gas Environmental Data. Marine Environmental Data Service, National Energy Board (CD-ROM)
Mintu, S. and Molyneux, D. 2018. Simulation of Ice-Structure Interactions Using a Coupled SPH-DEM Method, OTC-29139-MS
NORSOK N-003 (2017) Actions and action effects, NORSOK N-004:2013 Design of steel structures
Oceans. 2003. Iceberg profile data collected as part of grand banks ice management operations. Jeanne d’Arc Basin Oil and Gas Operations
Oceans. 2004. Iceberg profile data collected as part of grand banks ice management operations. Jeanne d’Arc Basin Oil and Gas Operations
PERD. 2015. NRC-PERD Comprehensive iceberg management database. National Research Council Canada
Qiu, W. (2019) Wave-body interaction (website https://www.engr.mun.ca/~qiuw/index_files/Page2473.htm includes a brief description of diffraction analysis program, Maps,
Ralph, F. 2016. Design of ships and offshore structures: a probabilistic approach for multi-year ice and Iceberg impact loads for decision-making with uncertainty. PhD Thesis, Memorial University
Randell, C., R. Ralph, D. Power, and P. Stuckey. (2009). Technological Advances to Assess, Manage and Reduce Ice Risk in Northern Developments. In proceedings of offshore technology conference. Houston, U.S.A.: offshore technology conference. OTC -20264-MS.
Ritch, R., Frederking, R., Johnston, M., Browne, R., Ralph, F. 2008, Local ice pressures measured on a strain gauge panel during the CCGS Terry fox bergy bit impact study, CRST
Seaconsult (1988) Physical environmental data for production systems at Terra Nova. Report prepared for Petro-Canada Inc., Calgary
Sigma Engineering. 1994. Review of radar for the Hibernia GBS. Contract Report for Hibernia Management and Development Company
Stuckey P (2008) Drift speed distribution of icebergs on the grand banks and influence on design loads. In: Master of Engineering thesis, Memorial University of Newfoundland. Canada, St. John’s
Stuckey, P., Ralph, F. and Jordaan, I. 2008. Iceberg design load methodology. In proceedings of the 8th international conference and exhibition on performance of ships and structures in ice (ICETECH 2008)
Stuckey, P., A. Younan, M. Fuglem, K. Habib and Shadi Alawneh. 2016. Updating the Iceberg Load Software Using High Resolution Iceberg Profiles. In Proceedings of Offshore Technology Conference. St. John’s, Canada: OTC 27492
Stuckey, P., Huang, Y and Fuglem, M., 2018, Development of an Iceberg Impact Load Assessment Tool, OTC-29091-MS
Talimi, V., Ni, S., Qui, W., Fuglem, M. and MacNeill, A. (2016) Investigation of Iceberg Hydrodynamics - OTC-27493-MS.
Taylor R, Jordaan I, Li C, Sudom D (2010) Local design pressures for structures in ice: analysis of full-scale data. Journal of Offshore Mechanics and Arctic Engineering 132(3)
Westmar (2001) Load estimates for ship damage due to impact with icebergs Report by Westward Consultants Inc to National Research Council of Canada PERD/CHC report 20-60, 2001
Younan, A., Bruce, J. and Ralph, F. 2016 Overview of the 2012 Iceberg Profiling Program, OTC-27469-MS
Acknowledgements
The authors would like to acknowledge seminal work related to this topic by Dr. Ian Jordaan.
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Fuglem, M., Stuckey, P., Huang, Y. et al. Iceberg disconnect criteria for floating production systems. Saf. Extreme Environ. 2, 15–36 (2020). https://doi.org/10.1007/s42797-019-00007-4
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DOI: https://doi.org/10.1007/s42797-019-00007-4