Multinode Unsteady Surface Element Method With Application to Contact Conductance Problem

Abstract: The unsteady surface element method is a powerful numerical technique for solution of linear transient two- and three-dimensional heat transfer problems. Its development originated with the need of solving certain transient problems for which similar or dissimilar bodies are attached one to the other over a part of their surface boundaries. In this paper a multinode unsteady surface element (MUSE) method for two arbitrary geometries contacting over part of their surface boundaries is developed and formulated. … Show more

“…To formalize the two-dimensional IHCP, Hsieh and Su [5] and Bell [6] employed a differential method, Lithouhi and Beac [7] employed a finite element method, and Shoji and Ono [8] employed a boundary element method. Moreover, Huang and Tsai [9] carried out the IHCP solution to estimate boundary fluxes in an irregular domain with a conjugate gradient method.…”

Application of inverse solution in two‐dimensional heat conduction problem using Laplace transformation

“…To formalize the two-dimensional IHCP, Hsieh and Su [5] and Bell [6] employed a differential method, Lithouhi and Beac [7] employed a finite element method, and Shoji and Ono [8] employed a boundary element method. Moreover, Huang and Tsai [9] carried out the IHCP solution to estimate boundary fluxes in an irregular domain with a conjugate gradient method.…”

Application of inverse solution in two‐dimensional heat conduction problem using Laplace transformation

Heat transfer—a review of 1986 literature

Analytical method in inverse heat transfer problem using laplace transform technique