A finite element analysis of the freeze/thaw behavior of external artery heat pipesA two-dimensional finite element model was used to determine the freeze/thaw characteristics of an external artery heat pipe. During startup, the working fluid, which was located in the liquid channel and the circumferential wall grooves, experienced a phase transformation from a solid to a liquid state. The transient heat conduction equations with moving interfacial conditions were solved using the appropriate initial boundary conditions. The modelling results include the cross-sectional temperature distribution and the interfacial or melt front position as a function of time. A fixed grid approach was adopted in the model for the phase-change process during thawing of frozen working fluid. The interfacial position between the liquid and solid regions was found by balancing the latent heat caused by interfacial movement with the heat addition or extraction at the related grid points.
Document ID
19930062495
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Lu, X. J. (NASA Headquarters Washington, DC United States)
Peterson, G. P. (Texas A & M Univ. College Station, United States)