Numerical Simulation of Pulsation Flow in the Vapour Channel of Short Low Temperature Heat Pipes at High Heat Loads

• Published in: Journal of physics. Conference series Vol. 891; no. 1; pp. 12009 - 12014
• Main Authors: Seryakov, A V, Konkin, A V
• Format: Journal Article
• Language: English
• Published: Bristol IOP Publishing 10.11.2017
• Subjects: Boiling points; Boundary conditions; Computer simulation; Evaporation; Evaporators; Finite element method; Heat; Heat pipes; Low temperature; Physics; Rarefaction; Simulation; Vapors; Working fluids
• ISSN: 1742-6588; 1742-6596
• DOI: 10.1088/1742-6596/891/1/012009

The results of the numerical simulation of pulsations in the Laval-liked vapour channel of short low-temperature range heat pipes (HPs) are presented. The numerical results confirmed the experimentally obtained increase of the frequency of pulsations in the vapour channel of short HPs with increasing overheat of the porous evaporator relative to the boiling point of the working fluid. The occurrence of pressure pulsations inside the vapour channel in a short HPs is a complex phenomenon associated with the boiling beginning in the capillary-porous evaporator at high heat loads, and appearance the excess amount of vapour above it, leading to the increase in pressure P to a value at which the boiling point TB of the working fluid becomes higher than the evaporator temperature Tev. Vapour clot spreads through the vapour channel and condense, and then a rarefaction wave return from condenser in the evaporator, the boiling in which is resumed and the next cycle of the pulsations is repeated. Numerical simulation was performed using finite element method implemented in the commercial program ANSYS Multiphisics 14.5 in the two-dimensional setting of axis symmetric moist vapour flow with third kind boundary conditions.