Browse > Article
http://dx.doi.org/10.5574/JAROE.2018.4.1.001

A Study on Heat Loss from Offshore Pipelines Depending on the Thermal Conductivity of Backfills and Burial Depth  

Park, Dong-Su (Department of Ocean Engineering, Korea Maritime and Ocean University)
Seo, Young-Kyo (Department of Ocean Engineering, Korea Maritime and Ocean University)
Publication Information
Journal of Advanced Research in Ocean Engineering / v.4, no.1, 2018 , pp. 1-6 More about this Journal
Abstract
Subsea pipelines are designed to transport mixtures of oil, gas, and their associated impurities from the wellhead that can have temperatures as high as $100^{\circ}C$, while the external temperature can be as low as $5^{\circ}C$. Heat can be lost from the subsea pipeline containing high-temperature fluid to the surrounding environment. It is important that the pipeline is designed to ensure that the heat loss is small enough to maintain flow and avoid the unwanted deposition of hydrate and wax, which occurs at a critical temperature of approximately $40^{\circ}C$. Therefore, it is essential to know the heat loss of subsea pipelines under various circumstances. This paper presents a comparison between numerical analyses and existing theoretical formulas for different backfills and burial depth.
Keywords
Heat loss; Overall heat transfer coefficient; Backfill; Burial depth; Thermal conductivity; Numerical analysis;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Bai, Y., and Bai, Q. (2005). Subsea Pipelines and Riser, 1st ed., Elsevier Ltd., Kidlington, Oxford
2 Carslaw, H.A. and Jaeger, J.C. (1959). Conduction of Heat in Solids, 2nd ed., Clarendon Press, Oxford.
3 Cha, J.H., An, S.J., and Goo, M.H. (2008). "Effects of Porosity and Water Content on Thermal Conductivity of Soils", Vol. 13, No. 3, pp 27-36
4 Farouki O.T. (1981). Thermal properties of soils, 1st ed., Trans Tech Pub., Rockport, MA
5 Morud, J.C., Simonsen, A. (2007). "Heat Transfer from partially buried pipes", 16th Australasian Fluid Mechanics Conference, Gold Coast, Australia
6 Oh, D.-W., Park, J.M., Lee, K.H., Zakarian, E., Lee, J. (2014). "Effect of buried depth on steady-state heat-transfer characteristics for pipeline-flow assurance". SPE Journal, 19(06), 1,162-1,168   DOI
7 Ovuworie, C. (2010). "Steady-State Heat Transfer Models for Fully and Partially Buried Pipelines, CPS/SPE International Oil&Gas Conference and Exhibition", Beijing, China
8 Papukchiev, A., and Buchholz, s. (2017). "Validation of ANSYS CFX for gas and liquid metal flows with conjugate heat transfer within the European project THINS", Nuclear Engineering and Design, 312(2017), 338-350   DOI
9 Zakarian, E., Holbeach, J. and Jenny, M., (2012). "A Holistic Approach to Steady-State Heat Transfer from Partially and Fully Buried Pipelines", Proc. of Offshore Technology Conf., Paper OTC 23033