Hybrid transfinite element modeling/analysis of nonlinear heat conduction problems involving phase changeThe present paper describes the applicability of hybrid transfinite element modeling/analysis formulations for nonlinear heat conduction problems involving phase change. The methodology is based on application of transform approaches and classical Galerkin schemes with finite element formulations to maintain the modeling versatility and numerical features for computational analysis. In addition, in conjunction with the above, the effects due to latent heat are modeled using enthalpy formulations to enable a physically realistic approximation to be dealt computationally for materials exhibiting phase change within a narrow band of temperatures. Pertinent details of the approach and computational scheme adapted are described in technical detail. Numerical test cases of comparative nature are presented to demonstrate the applicability of the proposed formulations for numerical modeling/analysis of nonlinear heat conduction problems involving phase change.
Document ID
19880034964
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Tamma, Kumar K. (Minnesota Univ. Minneapolis, MN, United States)
Railkar, Sudhir B. (Minnesota, University Minneapolis, United States)