Numerical parametric study of a cooling system for an LNG storage tank

Numerical parametric study of a cooling system for an LNG storage tank

The study of the cooling system of a Liquefied Natural Gas (LNG) storage tank is vital for the safety of the installation. The objective of this paper is to develop cooling baffles capable of reducing the heat gain from the environment leading to a loss of LNG quantity, keeping the Boil-Off Gas (BOG...

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Bibliographic Details
Published in:Oil & gas science and technology Vol. 74; p. 21
Main Authors: Haddar, Mohamed, Hammami, Moez, Baccar, Mounir
Format: Journal Article
Language:English
Published: Paris EDP Sciences 2019
Institut Français du Pétrole (IFP)
Subjects:
Baffles
Bogs
Cooling
Cooling systems
Cylindrical tanks
Dimensions
Finite volume method
Flow structures
Heat balance
Heat budget
Heat transfer
Heating
Liquefied natural gas
Parametric statistics
Physics
Storage tanks
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Summary:The study of the cooling system of a Liquefied Natural Gas (LNG) storage tank is vital for the safety of the installation. The objective of this paper is to develop cooling baffles capable of reducing the heat gain from the environment leading to a loss of LNG quantity, keeping the Boil-Off Gas (BOG) under control. For this purpose, a specific code based on the finite volume method was developed to improve our knowledge of the hydrodynamic and thermal behaviors of LNG in the cylindrical tank. In addition, the effect of the number, position and dimension of the baffles on the flow structure of LNG were determined. The obtained results indicated that the location of the baffles at the top of the tank nearby the vicinity of the wall would yield a better cooling of the LNG. Moreover, we emphasized that a number of six baffles would give rise to a better heat transfer. For a design purpose, the Nusselt numbers on the lateral surface and on the baffles have been correlated as functions of Rayleigh and baffle numbers.
ISSN:1294-4475
1953-8189
2804-7699
DOI:10.2516/ogst/2018097