Über Numerical Methods for Energy Applications
Part I: Advanced Numerical Methods.- Advanced Numerical Methods for Equations, Systems Equations and Optimization.- Analysis of Partial Differential Equations in Time Dependent Problems using Finite Difference Methods and the Applications on Engineering.- Theoretical Approaches of Finite Elements Method (FEM).- Advanced Numerical Methods Based on Artificial Intelligence.- Numerical Methods for Solving Nonlinear Equations.- Theoretical Approach to Element Free Galerkin Method and its Mathematical Implementation.- Theoretical Approach to Chebyshev Spectral Collocation Method and its Mathematical Implementation.- Advanced Numerical Methods Based on Optimization.- Posed Inverse Problems in Electrical Engineering Applications.- Part II: Advanced Energy Systems.- An Advanced Energy Systems Based on Energy Hub Concept.- Sustainable Energy Systems Based on the Multi-Energy Sources.- Modeling of Energy Systems for Smart Homes.- Finite Volume Method Used for Numerical Investigations of Electrochemical Devices.- Night Operation of a Solar Chimney Integrated with Spiral Heat Exchanger.- Incorporating of IPFC in Multi-Machine Power System Phillips-Heffron Model.- Techno-Economical Analysis of Energy Storage Systems in Conventional Distribution Networks.- OPAL-RT Technology Used in Automotive Applications for PEMFC.- Part III: Numerical Energy Applications.- Theoretical Techniques for the Exploration of Piezoelectric Harvesters.- Numerical Analysis of Electromagnetic Fields.- Optimization Methods for Wireless Power Transfer.- Numerical Assessment of Electromagnetic Energy and Forces in Non-Destructive Measurement Devices.- Optimal Integration of Electric Vehicles in Smart Grid Energy Flow.- Numerical Approaches of Biomass Plants Efficiency.- Power and Energy Flow in Cvasi-Stationary Electric and Magnetic Circuits.- Numerical Methods for Analysis of Energy Consumption in Drying Process of Wood.- Design and Energy Efficiency Analysis for Fuel Cell Hybrid Electric Vehicle.- Finite Element Solutions for Magnetic Shielding Power Applications.- Regression Analysis-Based Load Modelling for Electric Distribution Networks.- Finite Element Analysis of Electromagnetic Fields Emitted by Overhead High-Voltage Power Lines.- Design and Finite Element Analysis of Permanent Magnet Synchronous Generator for Wind Turbine.- Power and Energy System Modeling Based on Modified Tellegen Principle.- Self-Tuning Yaw Control Strategy of a Horizontal Axis Wind Turbine based on Machine Learning.- Numerical Methods of the Electric Power Flow in Interconnected Systems.
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