Evaluation of hydrodynamic Forces Effect on Seabed Pipeline in the Pars Special Economic Energy Zone (Asaluyeh)
Subject Areas : Marine PhysicsK. Lari 1 , A. javid 2 , M. R. bagheri chimeh 3
1 - Dept. of Physical Oceanography, Faculty of Marine Science and Technology, Islamic Azad University, Tehran North Branch
2 - Department of Environment Engineering, Islamic Azad University, Tehran science and Research Branch
3 - Department of Physical Oceanography, Islamic Azad University, Tehran science and Research Branch
Keywords: Asaluyeh, Pipeline, DNV Standard, Static Stability, Hydrodynamic Forces,
Abstract :
Underwater pipelines are exposed to hydrodynamic and hydrostatic parameters of the environmental conditions, in the region. In this study, in order to investigate the stability of the underwater pipelines, taking into account the waves and currents induced forces, a stability analysis is performed. There are few standards for designing and analysis of underwater pipelines. The two standards, DNV-RP-C205 and DNV-RP-E305 were used. The study area was the coastal zone of Asaluyeh Port and data used included Asaluyeh wave data, from 2007 to 2008, which were collected by a floating buoy. On the other hand, data on currents were based on Ports and Maritime Organization information. Hydrodynamic coefficients such as Reynolds number, Kvlgan Carpenter and hydrodynamic forces induced on the pipeline in different conditions were calculated. The results showed that in current conditions, designing pipes larger than 0.7m in diameter is not suitable. However, the most suitable designs are pipes with 0.4m in diameter. The minimum weight of pipes with 0.7m diameter, in significant wave height condition under the water, was calculated to be 1365 kg/m.
نعمتی، م. 1389. پیش بینی لحظهای ارتفاع موج شاخص در خلیج فارس با استفاده از شبکه عصبی مصنوعی. پایان نامه کارشناسی ارشد، دانشگاه آزاد اسلامی علوم و تحقیقات تهران.
ولی پور، ر. 1384. شبیه سازی عددی نیروهای هیدرودینامیکی موثر بر لولههای نصب شده بر روی بستر دریا به منظور تعیین حداکثر طول مجاز دهانه آزاد. پایان نامه کارشناسی ارشد، دانشگاه علم و صنعت ایران.
Braestrup, M. W. (Editor), Andersen, G. B., Andersen, L. W., Bryndum, M., Christensen, C. J. & Nielsen, N. R. 2005. Design and Installation of Marine Pipelines, Blackwell: Science Ltd UK.
Det Norske Veritas. 1998. DNV RP E305, On-Bottom Stability Design of Submarine Pipeline. Veritec.
Det Norske Veritas. 2007. DNV RP E305, Environmental Conditions and Environmental Loads. Veritec.
Kennedy, J. L. 1993. Oil and Gas pipeline fundamentals, PenWell Tulsa, Oklahama.
Larsen, C, M., Koushan, K. & Passano, E. 2002. Frequency and Time Domain Analysis Of Vortex Induced Vibrations For Free Span Pipelines. Proceedings of OMAE2002 21th International Conference on Offshore Mechanics and Arctic Engineering .Oslo, Norway.
Marzurkiewicz, B. K. 1987. Offshore Platform and Pipelines. Trans Tech Publication. Clausthal Zellerfeld, West Germany.
Xu, T., Lauridsen, B. & Bai, Y. 1999.Wave Induced Fatigue of multi-pan pipelines. Journal of Marine Structures, 12: 83–106.
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