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ISBN 10: 9533074043
ISBN 13: 9789533074047
Author: Vyacheslav Vikhrenko
Part 1: Inverse Heat Conduction Problems
Inverse Heat Conduction Problems
An overview of inverse heat conduction problems, where the objective is to determine unknown boundary conditions or material properties from measured temperature data.
Assessment of Various Methods in Solving Inverse Heat Conduction Problems
A comparative analysis of different numerical and analytical methods used to solve inverse heat conduction problems.
Identifiability of Piecewise Constant Conductivity
Discussion on the challenges and methodologies for identifying piecewise constant thermal conductivity in materials.
Experimental and Numerical Studies of Evaporation Local Heat Transfer in Free Jet
Investigations into the local heat transfer characteristics during evaporation in free jet flows, combining experimental and numerical approaches.
Part 2: Non-Fourier and Nonlinear Heat Conduction, Time Varying Heat Sources
Exact Travelling Wave Solutions for Generalized Forms of the Nonlinear Heat Conduction Equation
Derivation of exact solutions for generalized nonlinear heat conduction equations using travelling wave methods.
Heat Conduction Problems of Thermosensitive Solids under Complex Heat Exchange
Analysis of heat conduction in thermosensitive materials subjected to complex thermal environments.
Can a Lorentz Invariant Equation Describe Thermal Energy Propagation Problems?
Exploration of the applicability of Lorentz invariant equations in modeling thermal energy propagation.
Time Varying Heat Conduction in Solids
Study of heat conduction in solids with time-varying thermal properties and boundary conditions.
Part 3: Coupling Between Heat Transfer and Electromagnetic or Mechanical Excitations
Heat Transfer and Reconnection Diffusion in Turbulent Magnetized Plasmas
Examination of heat transfer mechanisms and reconnection diffusion processes in turbulent magnetized plasmas.
Energy Transfer in Pyroelectric Material
Investigation into the energy transfer processes in pyroelectric materials under varying thermal conditions.
Steady-State Heat Transfer and Thermo-Elastic Analysis of Inhomogeneous Semi-Infinite Solids
Analysis of steady-state heat transfer and thermo-elastic behavior in inhomogeneous semi-infinite solids.
Self-Similar Hydrodynamics with Heat Conduction
Study of self-similar solutions in hydrodynamic systems coupled with heat conduction effects.
Part 4: Numerical Methods
Particle Transport Monte Carlo Method for Heat Conduction Problems
Application of the Monte Carlo method in solving heat conduction problems involving particle transport.
Meshless Heat Conduction Analysis by Triple-Reciprocity Boundary Element Method
Development and application of a meshless boundary element method for heat conduction analysis.
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Tags: Vyacheslav Vikhrenko, CONDUCTION, RESEARCH
