Energy harvesting with piezoelectric and pyroelectric materials /

The purpose of this book is to present the current state of knowledge in the field of energy harvesting using piezoelectric and pyroelectric materials. The book is addressed to students and academics engaged in research in the fields of energy harvesting, material sciences and engineering. Scientist...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Muensit, Nantakan (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Stafa-Zuerich, Switzerland ; Enfield, New Hampshire : Trans Tech Publications, [2011]
Colección:Materials science foundations ; v. 72.
Temas:
Energy harvesting.
Energy harvesting > Materials.
Thermoelectric materials.
Piezoelectricity.
Piezoelectrical materials.
Pyroelectricity.
Electromechanical devices.
Récupération d'énergie.
Récupération d'énergie > Matériaux.
Thermoélectricité > Matériaux.
Piézoélectricité.
Pyroélectricité.
Dispositifs électromécaniques.
Electromechanical devices
Energy harvesting
Piezoelectricity
Pyroelectricity
Thermoelectric materials
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Energy Harvesting with Piezoelectric and Pyroelectric Materials; Preface; Names and Affiliations of all the Contributors; Table of Contents; Table of Contents; Part I: Fundamentals; CHAPTER 1: ENERGY HARVESTING MATERIALS; 1. Brief History of Energy Harvesting; 2. Basics of Piezo-, Pyro-, and Ferroelectricity; 3. Materials for Energy Harvesting; 4. Analysis for the Harvested Power; 5. Summary; References; CHAPTER 2: ELECTROMECHANICAL MODELS FOR ENERGY HARVESTING SYSTEMS; 1. Introduction 2. Modeling of Mechanical Structures with Piezoceramics
  • 3. Equivalent Circuit Model for Piezoelectric Systems4. Modeling the Electromechanical Coupling of Piezoelectric Bimorphs; 5. Experimental Parameter Identification; 6. Conclusions, References; Chapter 3: VIBRATION THEORY AND DESIGN OF PIEOELECTRIC ENERGY HARVESTING STRUCTURES; 1. Introduction, 2. Design of Piezoelectric Energy Harvesting Devices; 3. Theory of Piezoelectric Structural Vibration; 4. System Governing Equations of the Cantilever Structure; 5. Results and Analysis for the Piezoelectric Cantilever; 6. Conclusions; References
  • CHAPTER 4: ENERGY FLOW ANALYSIS IN PIEZOELECTRIC HARVESTING SYSTEMS1. Background; 2. Mechanical-to-Mechanical Energy Transfer; 3. Mechanical-Electrical Energy Transduction; 4. Electrical-to-Electrical Energy Transfer; 5. Summary of the Total Energy Flow; 6. Conclusions, References; CHAPTER 5: CONVERSION ENHANCEMENT FOR ENERGY HARVESTING; 1. Introduction. 2. Modeling and Nonlinear Conversion Enhancement Principles; 3. Application to Energy Harvesting: SSH Techniques; 4. Extension of the Nonlinear Energy Harvesting Principles; 5. Implementation Considerations; 6. Conclusions References
  • Part II: Applications and Case Studies. CHAPTER 6: ENERGY HARVESTING FOR SMART MINIATURIZED SYSTEMS; 1. Introduction 2. Principles of Harvesting from Vibrations; 3. Designs for the Piezoelectric Microharvesting; 4. Nanomaterials for Piezoelectric Microharvesting; 5. Examples of Piezoelectrically Powered Smart Systems; 6. Conclusions References; CHAPTER 7: ENERGY HARVESTING FROM A LOW FRQUENCY POWER SOURCE; 1. Background; 2. Approaches for Low Frequency Energy Harvesting; 3. Low Frequency Energy Harvesting with PVDF; 4. Conclusions References; CHAPTER 8: WASTE HEAT TO HIGH VOLTAGE ELECTRICITY
  • 1. Introduction2. Pyroelectric Copolymers; 3. Principle of Pyroelectric Conversion; 4. Experimental Work; 5. Economics and Technologies Comparison; 6. Conclusions; 7. Appendix; References; CHAPTER 9: ENERGY HARVESTING PRODUCTS AND FORECAST; 1. Introduction 2. Review of Commercial Devices; 3. Piezoelectric Energy Harvesters in Research; 4. Conclusions; 5. Future of Piezoelectric Energy Harvesting; References

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