The steady-periodic heat transfer between offshore buried pipelines for the transport of hydrocarbons and their environment is investigated. This heat transfer regime occurs for shallow water buried pipelines, as a consequence of the temperature changes of the seabed during the year. First, the unsteady two dimensional conduction problem is written in a dimensionless form; then, it is transformed into a steady two dimensional problem and solved numerically by means of the finite-element software package Comsol Multiphysics (© Comsol, Inc.). Several values of the burying depth and of the radius of the pipeline, as well as of the thermal properties of the soil are considered. The numerical results are compared with those obtainable by means of an approximate method employed in industrial design. The comparison reveals that important discrepancies with respect to this approximate method may occur.
A. Barletta, E. Zanchini, S. Lazzari, A. Terenzi (2008). Numerical study of heat transfer from an offshore buried pipeline under steady-periodic thermal boundary conditions. APPLIED THERMAL ENGINEERING, 28, 1168-1176 [10.1016/j.applthermaleng.2007.08.004].
Numerical study of heat transfer from an offshore buried pipeline under steady-periodic thermal boundary conditions
BARLETTA, ANTONIO;ZANCHINI, ENZO;LAZZARI, STEFANO;
2008
Abstract
The steady-periodic heat transfer between offshore buried pipelines for the transport of hydrocarbons and their environment is investigated. This heat transfer regime occurs for shallow water buried pipelines, as a consequence of the temperature changes of the seabed during the year. First, the unsteady two dimensional conduction problem is written in a dimensionless form; then, it is transformed into a steady two dimensional problem and solved numerically by means of the finite-element software package Comsol Multiphysics (© Comsol, Inc.). Several values of the burying depth and of the radius of the pipeline, as well as of the thermal properties of the soil are considered. The numerical results are compared with those obtainable by means of an approximate method employed in industrial design. The comparison reveals that important discrepancies with respect to this approximate method may occur.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.