Energy harvesting and thermal energy storage with some well known effect

For more info about our services contact : help@bestpfe.com

Table of contents

1. General introduction
2. Energy harvesting and thermal energy storage with some well known effect
2.1 Thermoelectric coupling effect and energy harvesting
2.1.1 Thermoelectric effect
2.1.2 Review of literature
2.2 Pyroelectric coupling effect and energy harvesting
2.2.1 Pyroelectric effect
2.2.2 Review of literature
2.3 Piezoelectric coupling effect and energy harvesting
2.3.1 Piezoelectric effect
2.3.2 Review of literature
2.3.3 Enhanced energy conversion efficiency with SSHI technique
2.4 Electromagnetic and electrostatic effects for energy harvesting
2.4.1 Electromagetic energy harvesting
2.4.2 Electrostatic energy harvesting
2.5 Thermal energy storage with phase change material
2.6 Sectional summary
3. Ambient energy harvesting
3.1 Characteristics of ambient energy source
3.1.1 Analysis of typical case
3.1.2 Modeling of solar thermal energy
3.2 Literature review
3.2.1 Direct Solar thermal energy harvesting
3.2.2 Wind energy harvesting
3.2.3 On harvesting other ambient energy
3.3 Sectional summary
4. Solar energy harvesting through thermoelectric effect
4.1 Design of the thermoelectric energy harvesting system
4.1.1 Strategy for ambient thermal energy harvesting
4.1.2 Thermoelectric device
4.1.3 Phase change material
4.2 Experimental study
4.2.1 Fabrication of the prototype TEG system
4.2.2 In lab test and results
4.2.3 Test outside and results
4.3 Modeling of the prototype system
4.3.1 Electrical analogy method
4.3.2 Finite element method
4.3.3 Simulation and results
4.4 Sectional summary
5. Solar energy harvesting through pyroelectric effect
5.1 Design of the pyroelectric energy harvesting system
5.2 Experimental study
5.2.1 In lab test and results
5.2.2 Test outside and results
5.3 Modeling of the prototype system
5.3.1 Equivalent electrical model
5.3.2 Numerical simulation
5.3.3 Results of the simulation
5.4 Sectional summary
6. Wind (or airfow) energy harvesting through piezoelectric effect
6.1 Design of the piezoelectric energy harvesting system
6.2 Experimental study
6.2.1 In lab test and results
6.2.2 Test outside and resutls
6.3 Modeling of a self-exctied energy harvester
6.3.1 Fluid structure interaction analysis with dynamic pressure
6.3.2 Lumped parameter model with SSHI technique
6.4 Sectional summary
7. Typical application of thermoelectric generator in building
7.1 Architecture of the application
7.2 Experimental study
7.2.1 Performance of an improved TEG
7.2.2 Configuration and performance of the self-powered system
7.2.3 Configuration and performance of the PV with water cooling
7.3 Sectional summary
8. General conclusion and perspective
General conclusion
Perspective
List of Publication
References
List of figures
List of tables