Advanced Thermal Engineering
( 25 Modules )

Module #1
Introduction to Advanced Thermal Engineering
Overview of the field, importance, and applications of advanced thermal engineering.

Module #2
Thermodynamic Properties of Fluids
In-depth review of thermodynamic properties of fluids, including equations of state, phase equilibria, and property correlations.

Module #3
Heat Transfer Fundamentals
Review of heat transfer mechanisms, including conduction, convection, and radiation, with a focus on advanced mathematical modeling.

Module #4
Advanced Conduction Heat Transfer
In-depth analysis of conduction heat transfer in complex geometries, including anisotropic and non-homogeneous media.

Module #5
Convection Heat Transfer in Complex Flows
Study of convection heat transfer in turbulent flows, rotating flows, and flows with buoyancy effects.

Module #6
Radiation Heat Transfer in Participating Media
Analysis of radiation heat transfer in media with participating particles, including gases, soot, and particles.

Module #7
Microscale Heat Transfer
Introduction to microscale heat transfer, including heat transfer in microchannels, microelectromechanical systems (MEMS), and nanoscale systems.

Module #8
Nanofluids and Nanostructured Materials
Study of nanofluids and nanostructured materials for enhanced heat transfer, including their properties, applications, and challenges.

Module #9
Advanced Computational Methods for Heat Transfer
Introduction to advanced computational methods, including finite element, lattice Boltzmann, and computational fluid dynamics (CFD) methods.

Module #10
Inverse Heat Transfer Problems
Formulation and solution of inverse heat transfer problems, including parameter estimation and optimization techniques.

Module #11
Thermal System Analysis and Optimization
Introduction to thermal system analysis and optimization, including design optimization, thermoeconomic analysis, and life cycle assessment.

Module #12
Heat Exchanger Design and Optimization
In-depth study of heat exchanger design and optimization, including compact heat exchangers, plate heat exchangers, and heat exchanger networks.

Module #13
Advanced Refrigeration Systems
Study of advanced refrigeration systems, including absorption refrigeration, adsorption refrigeration, and hybrid systems.

Module #14
Heat Pumps and Heat Recovery Systems
Introduction to heat pumps and heat recovery systems, including their applications, design, and optimization.

Module #15
Thermal Energy Storage Systems
Study of thermal energy storage systems, including sensible heat storage, latent heat storage, and thermochemical energy storage.

Module #16
Advanced Cooling Systems for Electronics
Introduction to advanced cooling systems for electronics, including air cooling, liquid cooling, and two-phase cooling systems.

Module #17
Thermal Management in Aerospace Engineering
Study of thermal management in aerospace engineering, including heat shields, thermal protection systems, and spacecraft thermal control.

Module #18
Thermal Management in Energy Systems
Introduction to thermal management in energy systems, including concentrated solar power, fossil fuel power plants, and nuclear reactors.

Module #19
Computational Modeling of Thermal Systems
Hands-on training on computational modeling of thermal systems using commercial software, such as COMSOL, ANSYS, and OpenFOAM.

Module #20
Experimental Methods in Thermal Engineering
Introduction to experimental methods in thermal engineering, including thermometry, calorimetry, and flow visualization.

Module #21
Uncertainty Analysis and Validation
Introduction to uncertainty analysis and validation in thermal engineering, including uncertainty quantification and model validation.

Module #22
Case Studies in Advanced Thermal Engineering
In-depth analysis of real-world case studies in advanced thermal engineering, including success stories, challenges, and lessons learned.

Module #23
Multidisciplinary Design Optimization
Introduction to multidisciplinary design optimization in thermal engineering, including design for manufacturability, cost, and sustainability.

Module #24
Thermal Engineering for Sustainability and Energy Efficiency
Study of thermal engineering for sustainability and energy efficiency, including life cycle assessment, thermoeconomic analysis, and environmental impact.

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Advanced Thermal Engineering career

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Advanced Thermal Engineering ( 25 Modules )

Advanced Thermal Engineering
( 25 Modules )