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Pressure variations in a cryogenic liquid storage tank subjected to periodic excitations.

Authors :
Ludwig, C.
Dreyer, M.E.
Hopfinger, E.J.
Source :
International Journal of Heat & Mass Transfer. Nov2013, Vol. 66, p223-234. 12p.
Publication Year :
2013

Abstract

Abstract: The pressure change in a partially filled liquid nitrogen tank, subjected to periodic lateral forces, has been investigated experimentally. The cylindrical tank has a radius of R =0.148m and is filled up to 69% of the total volume (43×10−3 m3). Six different sloshing conditions were considered, with the wave amplitude b of the first asymmetric mode ranging from b/R =0.12 up to wave breaking conditions of b/R ⩾0.54. The tank was pressurized with nitrogen vapor and the pressure at sloshing initiation was in general p i ≈250kPa. Pressure drops in the order of 100kPa have been measured and the dependency of these pressure drops on wave amplitude has been determined. The integrated temperature sensors allowed to measure the vapor temperature change and, with a high resolution, the thermal boundary layer in the liquid. The effective diffusion coefficient model of Das and Hopfinger (2009) [2] has been extended and allows calculating the temperature distribution in the thermal boundary layer, as well as the pressure drop as a function of the effective diffusion coefficient. A novel result is that the calculated temperature distribution in the thermal boundary layer deviates from the measured one, relating to a stop in the pressure drop. The sloshing Nusselt number Nu S = D e /D 0 is shown to correlate well with a Reynolds number that contains the wave amplitude. [Copyright &y& Elsevier]

Details

Language :
English
ISSN :
00179310
Volume :
66
Database :
Academic Search Index
Journal :
International Journal of Heat & Mass Transfer
Publication Type :
Academic Journal
Accession number :
90312920
Full Text :
https://doi.org/10.1016/j.ijheatmasstransfer.2013.06.072