Fundamentals of thermophotovoltaic energy conversion. (2007)
- Record Type:
- Book
- Title:
- Fundamentals of thermophotovoltaic energy conversion. (2007)
- Main Title:
- Fundamentals of thermophotovoltaic energy conversion
- Other Titles:
- Thermophotovoltaic energy conversion
- Further Information:
- Note: Donald L. Chubb.
- Other Names:
- Chubb, Donald L
- Contents:
- Cover -- Acknowledgements -- Preface -- Table of Contents -- Chapter 1 -- Introduction -- 1.1 Symbols -- 1.2 Thermphotovoltaic (TPV) Energy Conversion Concept -- 1.3 A Short History of TPV Energy Conversion -- 1.4 TPV Applications -- 1.5 Propagation of Electromagnetic Waves -- 1.5.1 Plane Wave Solution to Maxwell's Equations -- 1.5.2 Energy Flux for Plane Electromagnetic Waves -- 1.5.3 Boundary Conditions at an Interface -- 1.5.4 The Law of Reflection and Snell's Law of Refraction -- 1.5.5 Reflectivity and Transmissivity at an Interface -- 1.5.6 Connections between Electromagnetic Theory and Radiation Transfer Theory -- 1.6 Introduction to Radiation Transfer -- 1.6.1 Radiation Intensity -- 1.6.2 Blackbody -- 1.6.3 Blackbody Spectral Emissive Power -- 1.6.4 Blackbody Total Emissive Power -- 1.6.5 Equations for Radiation Energy Transfer -- 1.6.6 Energy Conservation Including Radiation -- 1.7 Optical Properties -- 1.7.1 Emittance and Absorptance -- 1.7.2 Hemispherical Spectral and Hemispherical Total Reflectivity -- 1.7.3 Independence of Emitted (Absorbed), Reflected, and Transmitted Radiation -- 1.8 Radiation Energy Balance for One Dimensional Model -- 1.9 Emittance of a Metal into a Dielectric -- 1.10 Summary -- References -- Problems -- Chapter 2 -- Maximum Efficiency and Power Density for TPV Energy Conversion -- 2.1 Symbols -- 2.2 Maximum TPV Efficiency -- 2.3 Maximum TPV Efficiency for Constant Emitter Emittance and PV Cell Reflectance -- 2.4 Ideal TPV System -- 2.5Cover -- Acknowledgements -- Preface -- Table of Contents -- Chapter 1 -- Introduction -- 1.1 Symbols -- 1.2 Thermphotovoltaic (TPV) Energy Conversion Concept -- 1.3 A Short History of TPV Energy Conversion -- 1.4 TPV Applications -- 1.5 Propagation of Electromagnetic Waves -- 1.5.1 Plane Wave Solution to Maxwell's Equations -- 1.5.2 Energy Flux for Plane Electromagnetic Waves -- 1.5.3 Boundary Conditions at an Interface -- 1.5.4 The Law of Reflection and Snell's Law of Refraction -- 1.5.5 Reflectivity and Transmissivity at an Interface -- 1.5.6 Connections between Electromagnetic Theory and Radiation Transfer Theory -- 1.6 Introduction to Radiation Transfer -- 1.6.1 Radiation Intensity -- 1.6.2 Blackbody -- 1.6.3 Blackbody Spectral Emissive Power -- 1.6.4 Blackbody Total Emissive Power -- 1.6.5 Equations for Radiation Energy Transfer -- 1.6.6 Energy Conservation Including Radiation -- 1.7 Optical Properties -- 1.7.1 Emittance and Absorptance -- 1.7.2 Hemispherical Spectral and Hemispherical Total Reflectivity -- 1.7.3 Independence of Emitted (Absorbed), Reflected, and Transmitted Radiation -- 1.8 Radiation Energy Balance for One Dimensional Model -- 1.9 Emittance of a Metal into a Dielectric -- 1.10 Summary -- References -- Problems -- Chapter 2 -- Maximum Efficiency and Power Density for TPV Energy Conversion -- 2.1 Symbols -- 2.2 Maximum TPV Efficiency -- 2.3 Maximum TPV Efficiency for Constant Emitter Emittance and PV Cell Reflectance -- 2.4 Ideal TPV System -- 2.5 Approximation of Selective Emitter and Filter TPV Systems -- 2.6 Power Output -- 2.7 Summary -- References -- Problems -- Chapter 3 -- Emitter Performances -- 3.1 Symbols -- 3.2 Gray Body Emitters -- 3.3 Selective Emitters -- 3.3.1 Rare Earth Selective Emitters -- 3.3.2 Other Selective Emitters -- 3.4 Extinction Coefficient and Optical Depth -- 3.5 Extinction Coefficients of Rare Earth Selective Emitters -- 3.6 Coupled Energy Equation and Radiation Transfer Equation for a Solid Material -- 3.7 One Dimensional Radiation Transfer Equations -- 3.7.1 One Dimensional Source Function Equation -- 3.7.2 One Dimensional Radiation Flux -- 3.7.3 No Scattering Medium -- 3.8 Spectral Emittance for Planar Emitter -- 3.8.1 No Scattering Spectral Emittance -- 3.8.2 No Scattering, Linear Temperature Variation Spectral Emittance -- 3.8.3 Importance of Temperature Change Across Planar Emitter -- 3.8.4 Effect of Scattering on Spectral Emittance of a Planar Emitter -- 3.9 Cylindrical Emitter -- 3.10 Emitter Performance -- 3.10.1 Gray Body Emitter Performance -- 3.10.2 Selective Emitter Performance -- 3.10.3 Cylindrical Selective Emitter Performance -- 3.10.4 Planar Selective Emitter Performance -- 3.11 Comparison of Selective Emitters and Gray Body Emitters -- 3.12 Summary -- References -- Problems -- Chapter 4 -- Optical Filters for Thermophotovoltaics -- 4.1 Symbols -- 4.2 Filter Performance Parameters -- 4.3 Interference Filters -- 4.3.1 In. … (more)
- Publisher Details:
- Amsterdam, Netherlands Boston Oxford, UK : Elsevier
- Publication Date:
- 2007
- Extent:
- 1 online resource (xiii, 515 pages), illustrations
- Subjects:
- 621.31244
Photovoltaic power generation
Thermoelectricity
Photovoltaic power systems
Thermoelectric apparatus and appliances
TECHNOLOGY & ENGINEERING -- Electrical
Photovoltaic power generation
Photovoltaic power systems
Thermoelectric apparatus and appliances
Thermoelectricity
Thermoélectricité
Conversion photovoltaïque
Systèmes photovoltaïques
Appareils thermoélectriques
Electronic books - Languages:
- English
- ISBNs:
- 9780080560687
0080560687 - Related ISBNs:
- 0444527214
9780444527219 - Notes:
- Note: Includes bibliographical references and index.
Note: Print version record. - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Available online (eLD content is only available in our Reading Rooms) ↗
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- British Library HMNTS - ELD.DS.36209
- Ingest File:
- 01_103.xml