Abstract
Under strong seismic ground motion, the structure may undergo large motions. Compared to land-based structures, offshore structures cherish unique effects of fluid–structure interactions: the hydrodynamic forces due to the relative velocity and acceleration between structural members and their surrounding waters.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
Morison JR, O’Brian MP, Johnson JW, Schaaf SA (1950) The force exerted by surface waves on piles. J Petrol Technol 2(5):149–154
Borgman LE (1967) Spectrum analysis of ocean wave forces on piling. J Waterw Harb ASCE 93(2):129–156
Borgman LE (1969) Ocean wave simulations for engineering design. J Waterw Harb ASCE November: 557–583
Det Norske Veritas (2014) DNV-RP-C205, environmental conditions and environmental loads, Høvik
Faltinsen OM (1990) Sea loads on ships and offshore structures. Cambridge University Press, Cambridge
Chakrabarti SK (1993) Hydrodynamics of offshore structures, 2nd edn. Computational Mechanics Publications, Southampton
Chakrabarti SK (1987) Hydrodynamics of offshore structures. Springer, Heidelberg
Venkataramana K, Kawano K (1995) Nonlinear dynamics of offshore structures under sew wave and earthquake forces. Adv Nonlinear Struct Dyn 20(2):501–512
Gurpinar A, Gryspeert BJ, Cole-Baker JR (1980) Dynamic analysis of offshore platforms under seismic excitation. In: Proceedings of the seventh world conference of earthquake engineering, Istanbul, vol 8
Jin DY, Matsui T (1997) Stochastic response analysis of jacket-type ocean platforms under simultaneously acting waves and earthquakes. Am Soc Mech Eng Saf Reliab 2:297–302
Etemad AK, Gharabaghi ARM, Chenaghlou MR (2004) Nonlinear dynamic behavior of fixed jacket-type offshore platforms subjected to simultaneously acting wave and earthquake loads. In: Proceedings of the 23rd international conference on offshore mechanics and arctic engineering, Vancouver
Bargi K, Reza Hosseini S, Tadayon MH, Sharifian H (2011) Seismic response of a typical fixed jacket-type offshore platform (SPD1) under sea waves. Open J Mar Sci 1:36–42
Blevins RD (1979) Formulas for natural frequency and mode shape. Robert E. Krieger Publishing, Malabar, USA
Jusoh I, Wolfram J (1996) Effects of Marine growth and hydrodynamic loading on offshore structuers. Junral Mekanikal Jilid 1:77–98
NORSOK Standard N-003 (2004) Actions and action effects, Rev. 2, Oct 2004
ISO 19906: 2010 (2011) Petroleum and natural gas industries—Arctic offshore structures
Canadian Standards Association (1992) General requirements, design criteria, the environment, and loads, CAN/CSA-S471-92
American Petroleum Institute (1995) Recommended practice for planning, designing, and constructing structures and pipelines for arctic conditions, API recommended practice, 2nd edn
Sanderson TJO (1988) Ice mechanics—risks to offshore structures. Graham and Trotmasn Limited, London
Naess A, Moan T (2012) Stochastic dynamics of marine structures. Cambridge University Press, Cambridge
Johnston ME, Croasdale KR, Jordaan IJ (1998) Localized pressures during ice–structure interaction: relevance to design criteria. Cold Reg Sci Technol 27(2):105–117
Kärnä T, Kamesaki K, Tsukuda H (1999) A numerical model for dynamic ice structure interaction. Comput Struct 72:645–658
Xu N, Yue Q, Guo F (2010) Mitigating ice-induced vibration by adding ice-breaking cone. In: Proceedings of the 20th international offshore and polar engineering, Beijing, China
Bouaanani N, Paultre P, Proulx J (2002) Two-dimensional modelling of ice cover effects for the dynamic analysis of concrete gravity dams. Earthq Eng Struct Dyn 31(12):2083–2102
Tsinker GP (1995) Chapter 2: Marine structures in cold regions, marine structures engineering: specialized applications. Chapman & Hall, New York
Han Y (1995) Dynamic behavior of pile foundations with soil–pile interactions. Memorial University of Newfoundland, St. John’s Newfoundland, Canada
Yamauchi Y, Kamesaki K, Hyodo M (2010) Numerical simulation on ice–structure interaction during earthquakes. In: Proceedings of the 20th international offshore and polar engineering conference, Beijing
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2017 Springer-Verlag GmbH Germany
About this chapter
Cite this chapter
Jia, J. (2017). Influence of Hydrodynamic Forces and Ice During Earthquakes. In: Modern Earthquake Engineering . Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-31854-2_10
Download citation
DOI: https://doi.org/10.1007/978-3-642-31854-2_10
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-31853-5
Online ISBN: 978-3-642-31854-2
eBook Packages: EngineeringEngineering (R0)