Thermoelectric power /:
Gespeichert in:
| Weitere Verfasser: | |
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Hauppauge, N.Y. :
Nova Science Publishers,
©2012.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | Includes index. |
| Beschreibung: | 1 online resource (xiii, 389 pages) : illustrations (some color) |
| ISBN: | 9781611225891 1611225892 |
Internformat
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| 505 | 0 | |a THERMOELECTRIC POWER; THERMOELECTRIC POWER; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: INFLUENCE OF LIGHT WAVES ON THE THERMOELECTRIC POWER IN QUANTUM CONFINED OPTOELECTRONIC MATERIALS AND SUPERLATTICES UNDER STRONG MAGNETIC FIELD; ABSTRACT; 1. INTRODUCTION; 2. THEORETICAL BACKGROUND; 2.1. Formulation of TPSM in UF of Optoelectronic Materials; 2.2. Formulation of TPSM in Quantum Wires of Optoelectronic Materials; 2.3. Formulation of TPSM in Quantum Dots of Optoelectronic Materials. | |
| 505 | 8 | |a 2.4. Formulation of TPSM in III-V Quantum Wire Effective Mass Superlattices2.5. Formulation of TPSM in III-V Quantum Dot Effective Mass Superlattices; 2.6. Formulation of TPSM in III-V Quantum Wire Superlattices with Graded Interfaces; 2.7. Formulation of TPSM in III-V Quantum Dot Superlattices with Graded Interfaces; 2.8. Formulation of TPSM in Optoelectronic Materials; 2.8. Formulation of TPSM in Ultrathin Films of Optoelectronic Materials; 2.10. The Nine Different Applications of the Results of This Chapter in the Field of Nanostructured Electronics in General; RESULT AND DISCUSSION. | |
| 505 | 8 | |a ACKNOWLEDGMENTSREFERENCES; Chapter 2: RELIABILITY-BASED PERFORMANCE ANALYSIS OF THERMAL POWER PLANT EQUIPMENT; ABSTRACT; 1. INTRODUCTION; 2. METHOD DEVELOPMENT; 2.1. Functional Tree Analysis; 2.2. Failure Modes and Effects Analysis; 2.3. Reliability Analysis; 2.4. Reliability Centered Maintenance (RCM) Concepts; 3. APPLICATION; 3.1. Gas Turbines Analysis; 3.2. Heat Recovery Steam Generators Analysis; CONCLUSION; REFERENCES; Chapter 3: INNOVATIONS IN ORGANIC-FUELED THERMOELECTRIC GENERATORS DEVELOPMENT; ABSTRACT; INTRODUCTION. | |
| 505 | 8 | |a 1. EFFICIENCY OF ORGANIC-FUELED THERMOELECTRIC GENERATORS AND RESERVES OF ITS INCREASE2. SEGMENTED THERMOELECTRIC GENERATORS; 3. FUNCTIONALLY GRADED THERMOELECTRIC MATERIALS FOR GENERATORS; 3.1. Materials for Generator Modules; 3.2. Design of FGTM for Generators; 3.3. Optimal FGTM for Generators; 3.4. FGTM Technologies; 3.5. FGTM Modules; 4. PERMEABLE THERMOELEMENTS FOR GENERATORS; 4.1. Thermoelements eith Channels or Pores; 4.2. Permeable Thermoelements with a Catalyst; 4.3. Thermoelectric Materials with Catalytic Properties; 5. EXAMPLES OF ORGANIC-FUELED TEGS DEVELOPMENTS. | |
| 505 | 8 | |a 5.1. Thermal and Electric Energy Generator5.2. Generator for Heating Systems; 5.3. Generator for Gas-Distributing Stations; 5.4. Portable Gas-Fueled Generator; 5.5. Generators for Power Supply to Automatic Devices of Gas Heaters; 5.6. Portable Catalytic Generator; 5.7. Catalytic Microgenerators; CONCLUSION; REFERENCES; Chapter 4: THERMOELECTRIC WATER WITHDRAWALS IN THE U.S.: PAST, PRESENT, AND FUTURE; ABSTRACT; INTRODUCTION; OVERVIEW OF THERMOELECTRIC WATERWITHDRAWALS IN THE U.S.; Spatial Distribution of Thermoelectric Water Withdrawals; Water Sources for Thermoelectric Power Production. | |
| 650 | 0 | |a Thermal electromotive force |x Measurement. | |
| 650 | 0 | |a Thermoelectricity. |0 http://id.loc.gov/authorities/subjects/sh85134791 | |
| 650 | 6 | |a Thermoélectricité. | |
| 650 | 7 | |a SCIENCE |x Physics |x Electricity. |2 bisacsh | |
| 650 | 7 | |a Thermoelectricity |2 fast | |
| 700 | 1 | |a Dempsey, William P. | |
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| contents | THERMOELECTRIC POWER; THERMOELECTRIC POWER; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: INFLUENCE OF LIGHT WAVES ON THE THERMOELECTRIC POWER IN QUANTUM CONFINED OPTOELECTRONIC MATERIALS AND SUPERLATTICES UNDER STRONG MAGNETIC FIELD; ABSTRACT; 1. INTRODUCTION; 2. THEORETICAL BACKGROUND; 2.1. Formulation of TPSM in UF of Optoelectronic Materials; 2.2. Formulation of TPSM in Quantum Wires of Optoelectronic Materials; 2.3. Formulation of TPSM in Quantum Dots of Optoelectronic Materials. 2.4. Formulation of TPSM in III-V Quantum Wire Effective Mass Superlattices2.5. Formulation of TPSM in III-V Quantum Dot Effective Mass Superlattices; 2.6. Formulation of TPSM in III-V Quantum Wire Superlattices with Graded Interfaces; 2.7. Formulation of TPSM in III-V Quantum Dot Superlattices with Graded Interfaces; 2.8. Formulation of TPSM in Optoelectronic Materials; 2.8. Formulation of TPSM in Ultrathin Films of Optoelectronic Materials; 2.10. The Nine Different Applications of the Results of This Chapter in the Field of Nanostructured Electronics in General; RESULT AND DISCUSSION. ACKNOWLEDGMENTSREFERENCES; Chapter 2: RELIABILITY-BASED PERFORMANCE ANALYSIS OF THERMAL POWER PLANT EQUIPMENT; ABSTRACT; 1. INTRODUCTION; 2. METHOD DEVELOPMENT; 2.1. Functional Tree Analysis; 2.2. Failure Modes and Effects Analysis; 2.3. Reliability Analysis; 2.4. Reliability Centered Maintenance (RCM) Concepts; 3. APPLICATION; 3.1. Gas Turbines Analysis; 3.2. Heat Recovery Steam Generators Analysis; CONCLUSION; REFERENCES; Chapter 3: INNOVATIONS IN ORGANIC-FUELED THERMOELECTRIC GENERATORS DEVELOPMENT; ABSTRACT; INTRODUCTION. 1. EFFICIENCY OF ORGANIC-FUELED THERMOELECTRIC GENERATORS AND RESERVES OF ITS INCREASE2. SEGMENTED THERMOELECTRIC GENERATORS; 3. FUNCTIONALLY GRADED THERMOELECTRIC MATERIALS FOR GENERATORS; 3.1. Materials for Generator Modules; 3.2. Design of FGTM for Generators; 3.3. Optimal FGTM for Generators; 3.4. FGTM Technologies; 3.5. FGTM Modules; 4. PERMEABLE THERMOELEMENTS FOR GENERATORS; 4.1. Thermoelements eith Channels or Pores; 4.2. Permeable Thermoelements with a Catalyst; 4.3. Thermoelectric Materials with Catalytic Properties; 5. EXAMPLES OF ORGANIC-FUELED TEGS DEVELOPMENTS. 5.1. Thermal and Electric Energy Generator5.2. Generator for Heating Systems; 5.3. Generator for Gas-Distributing Stations; 5.4. Portable Gas-Fueled Generator; 5.5. Generators for Power Supply to Automatic Devices of Gas Heaters; 5.6. Portable Catalytic Generator; 5.7. Catalytic Microgenerators; CONCLUSION; REFERENCES; Chapter 4: THERMOELECTRIC WATER WITHDRAWALS IN THE U.S.: PAST, PRESENT, AND FUTURE; ABSTRACT; INTRODUCTION; OVERVIEW OF THERMOELECTRIC WATERWITHDRAWALS IN THE U.S.; Spatial Distribution of Thermoelectric Water Withdrawals; Water Sources for Thermoelectric Power Production. |
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| discipline | Physik |
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| id | ZDB-4-EBA-ocn828869705 |
| illustrated | Illustrated |
| indexdate | 2024-11-27T13:25:12Z |
| institution | BVB |
| isbn | 9781611225891 1611225892 |
| language | English |
| oclc_num | 828869705 |
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| physical | 1 online resource (xiii, 389 pages) : illustrations (some color) |
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| spelling | Thermoelectric power / editor, William P. Dempsey. Hauppauge, N.Y. : Nova Science Publishers, ©2012. 1 online resource (xiii, 389 pages) : illustrations (some color) text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes index. Print version record. THERMOELECTRIC POWER; THERMOELECTRIC POWER; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: INFLUENCE OF LIGHT WAVES ON THE THERMOELECTRIC POWER IN QUANTUM CONFINED OPTOELECTRONIC MATERIALS AND SUPERLATTICES UNDER STRONG MAGNETIC FIELD; ABSTRACT; 1. INTRODUCTION; 2. THEORETICAL BACKGROUND; 2.1. Formulation of TPSM in UF of Optoelectronic Materials; 2.2. Formulation of TPSM in Quantum Wires of Optoelectronic Materials; 2.3. Formulation of TPSM in Quantum Dots of Optoelectronic Materials. 2.4. Formulation of TPSM in III-V Quantum Wire Effective Mass Superlattices2.5. Formulation of TPSM in III-V Quantum Dot Effective Mass Superlattices; 2.6. Formulation of TPSM in III-V Quantum Wire Superlattices with Graded Interfaces; 2.7. Formulation of TPSM in III-V Quantum Dot Superlattices with Graded Interfaces; 2.8. Formulation of TPSM in Optoelectronic Materials; 2.8. Formulation of TPSM in Ultrathin Films of Optoelectronic Materials; 2.10. The Nine Different Applications of the Results of This Chapter in the Field of Nanostructured Electronics in General; RESULT AND DISCUSSION. ACKNOWLEDGMENTSREFERENCES; Chapter 2: RELIABILITY-BASED PERFORMANCE ANALYSIS OF THERMAL POWER PLANT EQUIPMENT; ABSTRACT; 1. INTRODUCTION; 2. METHOD DEVELOPMENT; 2.1. Functional Tree Analysis; 2.2. Failure Modes and Effects Analysis; 2.3. Reliability Analysis; 2.4. Reliability Centered Maintenance (RCM) Concepts; 3. APPLICATION; 3.1. Gas Turbines Analysis; 3.2. Heat Recovery Steam Generators Analysis; CONCLUSION; REFERENCES; Chapter 3: INNOVATIONS IN ORGANIC-FUELED THERMOELECTRIC GENERATORS DEVELOPMENT; ABSTRACT; INTRODUCTION. 1. EFFICIENCY OF ORGANIC-FUELED THERMOELECTRIC GENERATORS AND RESERVES OF ITS INCREASE2. SEGMENTED THERMOELECTRIC GENERATORS; 3. FUNCTIONALLY GRADED THERMOELECTRIC MATERIALS FOR GENERATORS; 3.1. Materials for Generator Modules; 3.2. Design of FGTM for Generators; 3.3. Optimal FGTM for Generators; 3.4. FGTM Technologies; 3.5. FGTM Modules; 4. PERMEABLE THERMOELEMENTS FOR GENERATORS; 4.1. Thermoelements eith Channels or Pores; 4.2. Permeable Thermoelements with a Catalyst; 4.3. Thermoelectric Materials with Catalytic Properties; 5. EXAMPLES OF ORGANIC-FUELED TEGS DEVELOPMENTS. 5.1. Thermal and Electric Energy Generator5.2. Generator for Heating Systems; 5.3. Generator for Gas-Distributing Stations; 5.4. Portable Gas-Fueled Generator; 5.5. Generators for Power Supply to Automatic Devices of Gas Heaters; 5.6. Portable Catalytic Generator; 5.7. Catalytic Microgenerators; CONCLUSION; REFERENCES; Chapter 4: THERMOELECTRIC WATER WITHDRAWALS IN THE U.S.: PAST, PRESENT, AND FUTURE; ABSTRACT; INTRODUCTION; OVERVIEW OF THERMOELECTRIC WATERWITHDRAWALS IN THE U.S.; Spatial Distribution of Thermoelectric Water Withdrawals; Water Sources for Thermoelectric Power Production. Thermal electromotive force Measurement. Thermoelectricity. http://id.loc.gov/authorities/subjects/sh85134791 Thermoélectricité. SCIENCE Physics Electricity. bisacsh Thermoelectricity fast Dempsey, William P. Print version: Thermoelectric power. Hauppauge, N.Y. : Nova Science Publishers, ©2012 9781611221923 (DLC) 2010037900 (OCoLC)667210520 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=539950 Volltext |
| spellingShingle | Thermoelectric power / THERMOELECTRIC POWER; THERMOELECTRIC POWER; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: INFLUENCE OF LIGHT WAVES ON THE THERMOELECTRIC POWER IN QUANTUM CONFINED OPTOELECTRONIC MATERIALS AND SUPERLATTICES UNDER STRONG MAGNETIC FIELD; ABSTRACT; 1. INTRODUCTION; 2. THEORETICAL BACKGROUND; 2.1. Formulation of TPSM in UF of Optoelectronic Materials; 2.2. Formulation of TPSM in Quantum Wires of Optoelectronic Materials; 2.3. Formulation of TPSM in Quantum Dots of Optoelectronic Materials. 2.4. Formulation of TPSM in III-V Quantum Wire Effective Mass Superlattices2.5. Formulation of TPSM in III-V Quantum Dot Effective Mass Superlattices; 2.6. Formulation of TPSM in III-V Quantum Wire Superlattices with Graded Interfaces; 2.7. Formulation of TPSM in III-V Quantum Dot Superlattices with Graded Interfaces; 2.8. Formulation of TPSM in Optoelectronic Materials; 2.8. Formulation of TPSM in Ultrathin Films of Optoelectronic Materials; 2.10. The Nine Different Applications of the Results of This Chapter in the Field of Nanostructured Electronics in General; RESULT AND DISCUSSION. ACKNOWLEDGMENTSREFERENCES; Chapter 2: RELIABILITY-BASED PERFORMANCE ANALYSIS OF THERMAL POWER PLANT EQUIPMENT; ABSTRACT; 1. INTRODUCTION; 2. METHOD DEVELOPMENT; 2.1. Functional Tree Analysis; 2.2. Failure Modes and Effects Analysis; 2.3. Reliability Analysis; 2.4. Reliability Centered Maintenance (RCM) Concepts; 3. APPLICATION; 3.1. Gas Turbines Analysis; 3.2. Heat Recovery Steam Generators Analysis; CONCLUSION; REFERENCES; Chapter 3: INNOVATIONS IN ORGANIC-FUELED THERMOELECTRIC GENERATORS DEVELOPMENT; ABSTRACT; INTRODUCTION. 1. EFFICIENCY OF ORGANIC-FUELED THERMOELECTRIC GENERATORS AND RESERVES OF ITS INCREASE2. SEGMENTED THERMOELECTRIC GENERATORS; 3. FUNCTIONALLY GRADED THERMOELECTRIC MATERIALS FOR GENERATORS; 3.1. Materials for Generator Modules; 3.2. Design of FGTM for Generators; 3.3. Optimal FGTM for Generators; 3.4. FGTM Technologies; 3.5. FGTM Modules; 4. PERMEABLE THERMOELEMENTS FOR GENERATORS; 4.1. Thermoelements eith Channels or Pores; 4.2. Permeable Thermoelements with a Catalyst; 4.3. Thermoelectric Materials with Catalytic Properties; 5. EXAMPLES OF ORGANIC-FUELED TEGS DEVELOPMENTS. 5.1. Thermal and Electric Energy Generator5.2. Generator for Heating Systems; 5.3. Generator for Gas-Distributing Stations; 5.4. Portable Gas-Fueled Generator; 5.5. Generators for Power Supply to Automatic Devices of Gas Heaters; 5.6. Portable Catalytic Generator; 5.7. Catalytic Microgenerators; CONCLUSION; REFERENCES; Chapter 4: THERMOELECTRIC WATER WITHDRAWALS IN THE U.S.: PAST, PRESENT, AND FUTURE; ABSTRACT; INTRODUCTION; OVERVIEW OF THERMOELECTRIC WATERWITHDRAWALS IN THE U.S.; Spatial Distribution of Thermoelectric Water Withdrawals; Water Sources for Thermoelectric Power Production. Thermal electromotive force Measurement. Thermoelectricity. http://id.loc.gov/authorities/subjects/sh85134791 Thermoélectricité. SCIENCE Physics Electricity. bisacsh Thermoelectricity fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85134791 |
| title | Thermoelectric power / |
| title_auth | Thermoelectric power / |
| title_exact_search | Thermoelectric power / |
| title_full | Thermoelectric power / editor, William P. Dempsey. |
| title_fullStr | Thermoelectric power / editor, William P. Dempsey. |
| title_full_unstemmed | Thermoelectric power / editor, William P. Dempsey. |
| title_short | Thermoelectric power / |
| title_sort | thermoelectric power |
| topic | Thermal electromotive force Measurement. Thermoelectricity. http://id.loc.gov/authorities/subjects/sh85134791 Thermoélectricité. SCIENCE Physics Electricity. bisacsh Thermoelectricity fast |
| topic_facet | Thermal electromotive force Measurement. Thermoelectricity. Thermoélectricité. SCIENCE Physics Electricity. Thermoelectricity |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=539950 |
| work_keys_str_mv | AT dempseywilliamp thermoelectricpower |