This chapter introduces the finite element method (FEM) as a tool for solution of classical electromagnetic problems. Although we discuss the main points in the application of the finite element method to electromagnetic design, including formulation and implementation, those who seek deeper understanding of the finite element method should consult some of the works listed in the bibliography section.

Introduction to the Finite Element Method

Thermal energy storage technologies and systems for concentrating solar power plants

Pool boiling characteristics of nano-fluids

Thermal energy storage has recently attracted increasing interest related to thermal applications such as space and water heating, waste heat utilization, cooling and air-conditioning. Energy storage is essential whenever there is a mismatch between the supply and consumption of energy. Use of phase change material (PCM) capsules assembled as a packed bed is one of the important methods that has been proposed to achieve the objective of high storage density with higher efficiency. A proper designing of the thermal energy storage systems using PCMs requires quantitative information about heat transfer and phase change processes in PCM. This paper reviews the development of available latent heat thermal energy storage technologies. The different aspects of storage such as material, encapsulation, heat transfer, applications and new PCM technology innovation have been carried out.

Heat transfer characteristics of thermal energy storage system using PCM capsules: A review

An overview of thermal energy storage systems

Effects of thermal boundary conditions on natural convection flows within a square cavity

Nucleation site density in pool boiling of saturated pure liquids: Effect of surface microroughness and surface and liquid physical properties

Nucleate pool boiling heat transfer of pure liquids at low to moderate heat fluxes

Flow and pressure drop fluctuations in a vertical tube subject to low frequency oscillations

Parametric studies on thermally stratified chilled water storage systems

A.R. Balakrishnan

Papers

Effects of thermal boundary conditions on natural convection flows within a square cavity

Nucleation site density in pool boiling of saturated pure liquids: Effect of surface microroughness and surface and liquid physical properties

Nucleate pool boiling heat transfer of pure liquids at low to moderate heat fluxes

Flow and pressure drop fluctuations in a vertical tube subject to low frequency oscillations

Parametric studies on thermally stratified chilled water storage systems