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
|