Heat flux :: processes, measurement techniques, and applications /
Gespeichert in:
| Weitere Verfasser: | , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
New York :
Nova Science Publishers,
c2012.
|
| Schriftenreihe: | Energy science, engineering and technology series.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | 1 online resource. |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781614709107 1614709106 |
Internformat
MARC
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| 245 | 0 | 0 | |a Heat flux : |b processes, measurement techniques, and applications / |c Gianluca Cirimele and Marcello D'Elia, editors. |
| 264 | 1 | |a New York : |b Nova Science Publishers, |c c2012. | |
| 300 | |a 1 online resource. | ||
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| 490 | 1 | |a Energy science, engineering and technology | |
| 504 | |a Includes bibliographical references and index. | ||
| 588 | |a Description based on print version record. | ||
| 505 | 0 | |a HEAT FLUX: PROCESSES, MEASUREMENT TECHNIQUES AND APPLICATIONS; HEAT FLUX: PROCESSES, MEASUREMENT TECHNIQUES AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: Measurement of Heat Flux and Heat Transfer Coefficient; NOMENCLATURE; 1. HEAT FLUX METERS; 1.1. Slug Calorimeters; 1.2. Axial Conduction Probes (Plug-Type Probes); 1.3. Radial Conduction Gauges (Gardon Type Gauges); 2. STEADY-STATE INVERSE METHODS FOR DETERMINING HEAT FLUX AND HEAT TRANSFER COEFFICIENT. | |
| 505 | 8 | |a 2.1. Methods for Solving One-Dimensional Inverse Nonlinear Heat Conduction Problems Encountered in Experimental Determination of Boundary Conditions2.2. Inverse Determination of Local Heat Transfer Coefficients; 2.3. Measurement of Heat Flux to Water-Walls In Boiler Combustion Chambers; 3. TRANSIENT INVERSE METHODS; 3.1. Transient Techniques for Determining Steady Heat Flux or Heat Transfer Coefficient; 3.2. Transient Techniques for Determining Time Varying Heat Flux or Heat Transfer Coefficient; 3.3. Space Marching Method for Determining Surface Heat Flux; REFERENCES. | |
| 505 | 8 | |a Chapter 2: Heat Flux Biocalorimetry: A Real-Time Analytical Tool for Bioprocess MonitoringABSTRACT; NOMENCLATURE; ABBREVIATIONS; 1. INTRODUCTION; 2. BIOCALORIMETRIC SENSITIVITY IMPROVEMENT; Baseline Heat Flow Rate Estimation Method; 2.1. Non-Invasive UA Estimation; 3. QUANTITATIVE STUDIES ON KINETICS OF MICROBIAL GROWTH; 3.1. Elemental and Enthalpy Balance for Analyzing Microbial Growth Processes; 3.2. Real-time Estimation of Specific Growth Rate from Heat Rate Data; 3.3. Diauxic Behavior; 4. BIOTHERMODYNAMIC STUDIES; 5. MONITORING AND CONTROL OF BIOPROCESSES. | |
| 505 | 8 | |a 5.1. Photoautotrophic Bioprocess Systems5.2. Biological Wastewater Treatment Systems; 6. LARGE-SCALE HEAT FLUX BIOCALORIMETRY; 7. FUTURE PROSPECTS OF BENCH SCALE CALORIMETRY; REFERENCES; Chapter 3: Ability of Soil to Transfer a Large Amount of Heat Under Reduced Air Pressure; ABSTRACT; 1. INTRODUCTION; 2. MATERIALS AND METHODS; 2.1. Soil Samples; 2.2. Measurements of Thermal Conductivity of Soil; 3. RESULTS AND DISCUSSIONS; 3.1. Thermal Conductivity of Three-Phase Soil under Reduced Air Pressure; 3.2. Steady-State Heat Flux of Soil under Reduced Air Pressure; CONCLUSION; REFERENCES. | |
| 505 | 8 | |a Chapter 4: Contributions to the Net Flux in the Mediterranean Sea: Seasonal and Interannual VariationsABSTRACT; 1. INTRODUCTION; 2. DATA; 3. RESULTS AND DISCUSSION; 3.1. Surface Heat Fluxes in the Mediterranean Sea; 3.2. Budgets and Exchange through the Strait of Gibraltar; 4. SUMMARY AND CONCLUDING REMARKS; ACKNOWLEDGMENTS; REFERENCES; Chapter 5: Simulation of Heat Flux Transport in the Edge Plasma of Small Size Divertor Tokamak; ABSTRACT; INTRODUCTION; BASIC TRANSPORT EQUATIONS; (1) Particle Balance Equation; (2)Parallel Momentum Balance for Ions; (3) Parallel Momentum Balance for Electrons. | |
| 546 | |a English. | ||
| 650 | 0 | |a Heat flux |x Research. | |
| 650 | 6 | |a Flux de chaleur |x Recherche. | |
| 650 | 7 | |a SCIENCE |x Mechanics |x Thermodynamics. |2 bisacsh | |
| 700 | 1 | |a Cirimele, Gianluca. | |
| 700 | 1 | |a D'Elia, Marcello. | |
| 776 | 0 | 8 | |i Print version: |t Heat flux |d New York : Nova Science Publishers, c2012. |z 9781614708872 (hardcover) |w (DLC) 2011027344 |
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Datensatz im Suchindex
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| contents | HEAT FLUX: PROCESSES, MEASUREMENT TECHNIQUES AND APPLICATIONS; HEAT FLUX: PROCESSES, MEASUREMENT TECHNIQUES AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: Measurement of Heat Flux and Heat Transfer Coefficient; NOMENCLATURE; 1. HEAT FLUX METERS; 1.1. Slug Calorimeters; 1.2. Axial Conduction Probes (Plug-Type Probes); 1.3. Radial Conduction Gauges (Gardon Type Gauges); 2. STEADY-STATE INVERSE METHODS FOR DETERMINING HEAT FLUX AND HEAT TRANSFER COEFFICIENT. 2.1. Methods for Solving One-Dimensional Inverse Nonlinear Heat Conduction Problems Encountered in Experimental Determination of Boundary Conditions2.2. Inverse Determination of Local Heat Transfer Coefficients; 2.3. Measurement of Heat Flux to Water-Walls In Boiler Combustion Chambers; 3. TRANSIENT INVERSE METHODS; 3.1. Transient Techniques for Determining Steady Heat Flux or Heat Transfer Coefficient; 3.2. Transient Techniques for Determining Time Varying Heat Flux or Heat Transfer Coefficient; 3.3. Space Marching Method for Determining Surface Heat Flux; REFERENCES. Chapter 2: Heat Flux Biocalorimetry: A Real-Time Analytical Tool for Bioprocess MonitoringABSTRACT; NOMENCLATURE; ABBREVIATIONS; 1. INTRODUCTION; 2. BIOCALORIMETRIC SENSITIVITY IMPROVEMENT; Baseline Heat Flow Rate Estimation Method; 2.1. Non-Invasive UA Estimation; 3. QUANTITATIVE STUDIES ON KINETICS OF MICROBIAL GROWTH; 3.1. Elemental and Enthalpy Balance for Analyzing Microbial Growth Processes; 3.2. Real-time Estimation of Specific Growth Rate from Heat Rate Data; 3.3. Diauxic Behavior; 4. BIOTHERMODYNAMIC STUDIES; 5. MONITORING AND CONTROL OF BIOPROCESSES. 5.1. Photoautotrophic Bioprocess Systems5.2. Biological Wastewater Treatment Systems; 6. LARGE-SCALE HEAT FLUX BIOCALORIMETRY; 7. FUTURE PROSPECTS OF BENCH SCALE CALORIMETRY; REFERENCES; Chapter 3: Ability of Soil to Transfer a Large Amount of Heat Under Reduced Air Pressure; ABSTRACT; 1. INTRODUCTION; 2. MATERIALS AND METHODS; 2.1. Soil Samples; 2.2. Measurements of Thermal Conductivity of Soil; 3. RESULTS AND DISCUSSIONS; 3.1. Thermal Conductivity of Three-Phase Soil under Reduced Air Pressure; 3.2. Steady-State Heat Flux of Soil under Reduced Air Pressure; CONCLUSION; REFERENCES. Chapter 4: Contributions to the Net Flux in the Mediterranean Sea: Seasonal and Interannual VariationsABSTRACT; 1. INTRODUCTION; 2. DATA; 3. RESULTS AND DISCUSSION; 3.1. Surface Heat Fluxes in the Mediterranean Sea; 3.2. Budgets and Exchange through the Strait of Gibraltar; 4. SUMMARY AND CONCLUDING REMARKS; ACKNOWLEDGMENTS; REFERENCES; Chapter 5: Simulation of Heat Flux Transport in the Edge Plasma of Small Size Divertor Tokamak; ABSTRACT; INTRODUCTION; BASIC TRANSPORT EQUATIONS; (1) Particle Balance Equation; (2)Parallel Momentum Balance for Ions; (3) Parallel Momentum Balance for Electrons. |
| ctrlnum | (OCoLC)833575948 |
| dewey-full | 536/.2072 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 536 - Heat |
| dewey-raw | 536/.2072 |
| dewey-search | 536/.2072 |
| dewey-sort | 3536 42072 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| format | Electronic eBook |
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| id | ZDB-4-EBA-ocn833575948 |
| illustrated | Illustrated |
| indexdate | 2024-11-27T13:25:15Z |
| institution | BVB |
| isbn | 9781614709107 1614709106 |
| language | English |
| lccn | 2019713487 |
| oclc_num | 833575948 |
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| series | Energy science, engineering and technology series. |
| series2 | Energy science, engineering and technology |
| spelling | Heat flux : processes, measurement techniques, and applications / Gianluca Cirimele and Marcello D'Elia, editors. New York : Nova Science Publishers, c2012. 1 online resource. text txt rdacontent computer c rdamedia online resource cr rdacarrier data file rda Energy science, engineering and technology Includes bibliographical references and index. Description based on print version record. HEAT FLUX: PROCESSES, MEASUREMENT TECHNIQUES AND APPLICATIONS; HEAT FLUX: PROCESSES, MEASUREMENT TECHNIQUES AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: Measurement of Heat Flux and Heat Transfer Coefficient; NOMENCLATURE; 1. HEAT FLUX METERS; 1.1. Slug Calorimeters; 1.2. Axial Conduction Probes (Plug-Type Probes); 1.3. Radial Conduction Gauges (Gardon Type Gauges); 2. STEADY-STATE INVERSE METHODS FOR DETERMINING HEAT FLUX AND HEAT TRANSFER COEFFICIENT. 2.1. Methods for Solving One-Dimensional Inverse Nonlinear Heat Conduction Problems Encountered in Experimental Determination of Boundary Conditions2.2. Inverse Determination of Local Heat Transfer Coefficients; 2.3. Measurement of Heat Flux to Water-Walls In Boiler Combustion Chambers; 3. TRANSIENT INVERSE METHODS; 3.1. Transient Techniques for Determining Steady Heat Flux or Heat Transfer Coefficient; 3.2. Transient Techniques for Determining Time Varying Heat Flux or Heat Transfer Coefficient; 3.3. Space Marching Method for Determining Surface Heat Flux; REFERENCES. Chapter 2: Heat Flux Biocalorimetry: A Real-Time Analytical Tool for Bioprocess MonitoringABSTRACT; NOMENCLATURE; ABBREVIATIONS; 1. INTRODUCTION; 2. BIOCALORIMETRIC SENSITIVITY IMPROVEMENT; Baseline Heat Flow Rate Estimation Method; 2.1. Non-Invasive UA Estimation; 3. QUANTITATIVE STUDIES ON KINETICS OF MICROBIAL GROWTH; 3.1. Elemental and Enthalpy Balance for Analyzing Microbial Growth Processes; 3.2. Real-time Estimation of Specific Growth Rate from Heat Rate Data; 3.3. Diauxic Behavior; 4. BIOTHERMODYNAMIC STUDIES; 5. MONITORING AND CONTROL OF BIOPROCESSES. 5.1. Photoautotrophic Bioprocess Systems5.2. Biological Wastewater Treatment Systems; 6. LARGE-SCALE HEAT FLUX BIOCALORIMETRY; 7. FUTURE PROSPECTS OF BENCH SCALE CALORIMETRY; REFERENCES; Chapter 3: Ability of Soil to Transfer a Large Amount of Heat Under Reduced Air Pressure; ABSTRACT; 1. INTRODUCTION; 2. MATERIALS AND METHODS; 2.1. Soil Samples; 2.2. Measurements of Thermal Conductivity of Soil; 3. RESULTS AND DISCUSSIONS; 3.1. Thermal Conductivity of Three-Phase Soil under Reduced Air Pressure; 3.2. Steady-State Heat Flux of Soil under Reduced Air Pressure; CONCLUSION; REFERENCES. Chapter 4: Contributions to the Net Flux in the Mediterranean Sea: Seasonal and Interannual VariationsABSTRACT; 1. INTRODUCTION; 2. DATA; 3. RESULTS AND DISCUSSION; 3.1. Surface Heat Fluxes in the Mediterranean Sea; 3.2. Budgets and Exchange through the Strait of Gibraltar; 4. SUMMARY AND CONCLUDING REMARKS; ACKNOWLEDGMENTS; REFERENCES; Chapter 5: Simulation of Heat Flux Transport in the Edge Plasma of Small Size Divertor Tokamak; ABSTRACT; INTRODUCTION; BASIC TRANSPORT EQUATIONS; (1) Particle Balance Equation; (2)Parallel Momentum Balance for Ions; (3) Parallel Momentum Balance for Electrons. English. Heat flux Research. Flux de chaleur Recherche. SCIENCE Mechanics Thermodynamics. bisacsh Cirimele, Gianluca. D'Elia, Marcello. Print version: Heat flux New York : Nova Science Publishers, c2012. 9781614708872 (hardcover) (DLC) 2011027344 Energy science, engineering and technology series. http://id.loc.gov/authorities/names/no2009115408 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=548963 Volltext |
| spellingShingle | Heat flux : processes, measurement techniques, and applications / Energy science, engineering and technology series. HEAT FLUX: PROCESSES, MEASUREMENT TECHNIQUES AND APPLICATIONS; HEAT FLUX: PROCESSES, MEASUREMENT TECHNIQUES AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: Measurement of Heat Flux and Heat Transfer Coefficient; NOMENCLATURE; 1. HEAT FLUX METERS; 1.1. Slug Calorimeters; 1.2. Axial Conduction Probes (Plug-Type Probes); 1.3. Radial Conduction Gauges (Gardon Type Gauges); 2. STEADY-STATE INVERSE METHODS FOR DETERMINING HEAT FLUX AND HEAT TRANSFER COEFFICIENT. 2.1. Methods for Solving One-Dimensional Inverse Nonlinear Heat Conduction Problems Encountered in Experimental Determination of Boundary Conditions2.2. Inverse Determination of Local Heat Transfer Coefficients; 2.3. Measurement of Heat Flux to Water-Walls In Boiler Combustion Chambers; 3. TRANSIENT INVERSE METHODS; 3.1. Transient Techniques for Determining Steady Heat Flux or Heat Transfer Coefficient; 3.2. Transient Techniques for Determining Time Varying Heat Flux or Heat Transfer Coefficient; 3.3. Space Marching Method for Determining Surface Heat Flux; REFERENCES. Chapter 2: Heat Flux Biocalorimetry: A Real-Time Analytical Tool for Bioprocess MonitoringABSTRACT; NOMENCLATURE; ABBREVIATIONS; 1. INTRODUCTION; 2. BIOCALORIMETRIC SENSITIVITY IMPROVEMENT; Baseline Heat Flow Rate Estimation Method; 2.1. Non-Invasive UA Estimation; 3. QUANTITATIVE STUDIES ON KINETICS OF MICROBIAL GROWTH; 3.1. Elemental and Enthalpy Balance for Analyzing Microbial Growth Processes; 3.2. Real-time Estimation of Specific Growth Rate from Heat Rate Data; 3.3. Diauxic Behavior; 4. BIOTHERMODYNAMIC STUDIES; 5. MONITORING AND CONTROL OF BIOPROCESSES. 5.1. Photoautotrophic Bioprocess Systems5.2. Biological Wastewater Treatment Systems; 6. LARGE-SCALE HEAT FLUX BIOCALORIMETRY; 7. FUTURE PROSPECTS OF BENCH SCALE CALORIMETRY; REFERENCES; Chapter 3: Ability of Soil to Transfer a Large Amount of Heat Under Reduced Air Pressure; ABSTRACT; 1. INTRODUCTION; 2. MATERIALS AND METHODS; 2.1. Soil Samples; 2.2. Measurements of Thermal Conductivity of Soil; 3. RESULTS AND DISCUSSIONS; 3.1. Thermal Conductivity of Three-Phase Soil under Reduced Air Pressure; 3.2. Steady-State Heat Flux of Soil under Reduced Air Pressure; CONCLUSION; REFERENCES. Chapter 4: Contributions to the Net Flux in the Mediterranean Sea: Seasonal and Interannual VariationsABSTRACT; 1. INTRODUCTION; 2. DATA; 3. RESULTS AND DISCUSSION; 3.1. Surface Heat Fluxes in the Mediterranean Sea; 3.2. Budgets and Exchange through the Strait of Gibraltar; 4. SUMMARY AND CONCLUDING REMARKS; ACKNOWLEDGMENTS; REFERENCES; Chapter 5: Simulation of Heat Flux Transport in the Edge Plasma of Small Size Divertor Tokamak; ABSTRACT; INTRODUCTION; BASIC TRANSPORT EQUATIONS; (1) Particle Balance Equation; (2)Parallel Momentum Balance for Ions; (3) Parallel Momentum Balance for Electrons. Heat flux Research. Flux de chaleur Recherche. SCIENCE Mechanics Thermodynamics. bisacsh |
| title | Heat flux : processes, measurement techniques, and applications / |
| title_auth | Heat flux : processes, measurement techniques, and applications / |
| title_exact_search | Heat flux : processes, measurement techniques, and applications / |
| title_full | Heat flux : processes, measurement techniques, and applications / Gianluca Cirimele and Marcello D'Elia, editors. |
| title_fullStr | Heat flux : processes, measurement techniques, and applications / Gianluca Cirimele and Marcello D'Elia, editors. |
| title_full_unstemmed | Heat flux : processes, measurement techniques, and applications / Gianluca Cirimele and Marcello D'Elia, editors. |
| title_short | Heat flux : |
| title_sort | heat flux processes measurement techniques and applications |
| title_sub | processes, measurement techniques, and applications / |
| topic | Heat flux Research. Flux de chaleur Recherche. SCIENCE Mechanics Thermodynamics. bisacsh |
| topic_facet | Heat flux Research. Flux de chaleur Recherche. SCIENCE Mechanics Thermodynamics. |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=548963 |
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