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Development of research in microscale and nanoscale thermal and fluid sciences / editors, Lixin Cheng (Department of Engineering and Mathematics, Faculty of Arts, Computing, Engineering and Sciences, Sheffield Hallam University, Sheffield, UK).

Contributor(s): Material type: TextTextSeries: Mechanical engineering theory and applicationsPublisher: Hauppauge, New York : Nova Science Publishers, [2016]Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781634854832
  • 1634854837
Subject(s): Genre/Form: Additional physical formats: Print version:: Development of research in microscale and nanoscale thermal and fluid sciencesDDC classification:
  • 620.1/064 23
LOC classification:
  • TJ853.4.M53
Online resources:
Contents:
DEVELOPMENT OF RESEARCH IN MICROSCALE AND NANOSCALE THERMAL AND FLUID SCIENCES; DEVELOPMENT OF RESEARCH IN MICROSCALE AND NANOSCALE THERMAL AND FLUID SCIENCES; CONTENTS ; PREFACE ; Chapter 1 MIXED CONVECTIVE BOUNDARY LAYER FLOW OVER A VERTICAL WEDGE EMBEDDED IN A POROUS MEDIUM SATURATED WITH A NANOFLUID ; ABSTRACT ; NOMENCLATURE ; Greek Symbols ; INTRODUCTION ; ANALYSIS ; Numerical Method and Validation ; RESULTS AND DISCUSSION; CONCLUSIONS ; REFERENCES ; Chapter 2 FLOW AND HEAT TRANSFER OF TWO MICROPOLAR FLUIDS SEPARATED BY A VISCOUS FLUID LAYER; ABSTRACT; NOMENCLATURE ; Greek Symbols
Subscripts 1. INTRODUCTION ; 2. MATHEMATICAL FORMULATION ; 3. SOLUTIONS ; 3.1. Closed-Form Solutions ; 3.2. Differential Transform Method ; 4. DETERMINATION OF HEAT TRANSFER, SKIN FRICTION, AND MASS FLOW RATE; 4.1. Rate of Heat Transfer ; 4.2. Skin Friction ; 4.3. Mass Flow Rate ; 5. RESULTS AND DISCUSSION ; CONCLUSION ; REFERENCES ; Chapter 3 INVESTIGATION OF AN ALUMINIUM-COPPER CLAD METAL BASEPLATE FOR LIQUID COOLING: EXPERIMENTAL CHARACTERIZATION AND THERMAL MODELLING ; ABSTRACT ; INTRODUCTION; ALUMINUM-COPPER CLAD METAL BASEPLATE CONCEPT ; EXPERIMENTAL CHARACTERIZATION
THERMAL MODELLINGCONCLUSION; REFERENCES ; Chapter 4 UNSTEADY MHD FREE CONVECTION FLOW PAST AN EXPONENTIALLY ACCELERATED VERTICAL PLATE WITH MASS TRANSFER, CHEMICAL REACTION AND THERMAL RADIATION ; ABSTRACT ; NOMENCLATURE ; Greek Symbols; 1. INTRODUCTION; 2. PROBLEM FORMULATION ; 3. PROBLEM SOLUTION; 4. SKIN FRICTION COEFFICIENT ; 5. NUSSELT NUMBER ; 6. SHERWOOD NUMBER ; 7. RESULTS AND DISCUSSION ; CONCLUSION ; REFERENCES; Chapter 5 HEAT TRANSFER ENHANCEMENT STUDIES OF WATER DISPERSED WITH MULTI WALLED CARBON NANO TUBES IN A CROSS FLOW RADIATOR ; ABSTRACT ; NOMENCLATURE
Roman symbols 1. INTRODUCTION ; 2. EXPERIMENTAL ; 2.1. Materials ; 2.2. Purification and Oxidation of CNTs ; 2.3. Preparation of Nano Fluids ; 3. MEASUREMENT OF THERMO PHYSICAL PROPERTIES ; 3.1. Thermal Conductivity Measurement ; 3.2. Measurement of Specific Heat and Viscosity ; 4. EXPERIMENTAL SETUP FOR HEAT TRANSFER ENHANCEMENT; 4.1. Evaluation of Heat Transfer Coefficient, Hi and Overall Heat Transfer Coefficient, Ui ; 5. RESULTS AND DISCUSSIONS ; CONCLUSION ; ACKNOWLEDGMENT ; REFERENCES
Chapter 6 EVALUATION OF CORRELATIONS FOR SUPERCRITICAL CO2 COOLING CONVECTIVE HEAT TRANSFER AND PRESSURE DROP IN MACRO- AND MICRO-SCALE TUBES ABSTRACT ; NOMENCLATURE ; Greeks; Subscripts ; INTRODUCTION; Heat Transfer and Pressure Drop Correlations for Supercritical CO2 ; Heat Transfer Correlations ; Pressure Drop Correlations ; Evaluation of the Heat Transfer and Pressure Drop Correlations for Supercritical CO2 ; CONCLUSION ; REFERENCES ; Chapter 7 MIXED CONVECTION FLOW IN A VERTICAL CHANNEL FILLED WITH A FLUID-SATURATED POROUS MEDIUM DIVIDED BY A PERFECTLY CONDUCTIVE BAFFLE
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Includes bibliographical references and index.

Description based on print version record and CIP data provided by publisher.

DEVELOPMENT OF RESEARCH IN MICROSCALE AND NANOSCALE THERMAL AND FLUID SCIENCES; DEVELOPMENT OF RESEARCH IN MICROSCALE AND NANOSCALE THERMAL AND FLUID SCIENCES; CONTENTS ; PREFACE ; Chapter 1 MIXED CONVECTIVE BOUNDARY LAYER FLOW OVER A VERTICAL WEDGE EMBEDDED IN A POROUS MEDIUM SATURATED WITH A NANOFLUID ; ABSTRACT ; NOMENCLATURE ; Greek Symbols ; INTRODUCTION ; ANALYSIS ; Numerical Method and Validation ; RESULTS AND DISCUSSION; CONCLUSIONS ; REFERENCES ; Chapter 2 FLOW AND HEAT TRANSFER OF TWO MICROPOLAR FLUIDS SEPARATED BY A VISCOUS FLUID LAYER; ABSTRACT; NOMENCLATURE ; Greek Symbols

Subscripts 1. INTRODUCTION ; 2. MATHEMATICAL FORMULATION ; 3. SOLUTIONS ; 3.1. Closed-Form Solutions ; 3.2. Differential Transform Method ; 4. DETERMINATION OF HEAT TRANSFER, SKIN FRICTION, AND MASS FLOW RATE; 4.1. Rate of Heat Transfer ; 4.2. Skin Friction ; 4.3. Mass Flow Rate ; 5. RESULTS AND DISCUSSION ; CONCLUSION ; REFERENCES ; Chapter 3 INVESTIGATION OF AN ALUMINIUM-COPPER CLAD METAL BASEPLATE FOR LIQUID COOLING: EXPERIMENTAL CHARACTERIZATION AND THERMAL MODELLING ; ABSTRACT ; INTRODUCTION; ALUMINUM-COPPER CLAD METAL BASEPLATE CONCEPT ; EXPERIMENTAL CHARACTERIZATION

THERMAL MODELLINGCONCLUSION; REFERENCES ; Chapter 4 UNSTEADY MHD FREE CONVECTION FLOW PAST AN EXPONENTIALLY ACCELERATED VERTICAL PLATE WITH MASS TRANSFER, CHEMICAL REACTION AND THERMAL RADIATION ; ABSTRACT ; NOMENCLATURE ; Greek Symbols; 1. INTRODUCTION; 2. PROBLEM FORMULATION ; 3. PROBLEM SOLUTION; 4. SKIN FRICTION COEFFICIENT ; 5. NUSSELT NUMBER ; 6. SHERWOOD NUMBER ; 7. RESULTS AND DISCUSSION ; CONCLUSION ; REFERENCES; Chapter 5 HEAT TRANSFER ENHANCEMENT STUDIES OF WATER DISPERSED WITH MULTI WALLED CARBON NANO TUBES IN A CROSS FLOW RADIATOR ; ABSTRACT ; NOMENCLATURE

Roman symbols 1. INTRODUCTION ; 2. EXPERIMENTAL ; 2.1. Materials ; 2.2. Purification and Oxidation of CNTs ; 2.3. Preparation of Nano Fluids ; 3. MEASUREMENT OF THERMO PHYSICAL PROPERTIES ; 3.1. Thermal Conductivity Measurement ; 3.2. Measurement of Specific Heat and Viscosity ; 4. EXPERIMENTAL SETUP FOR HEAT TRANSFER ENHANCEMENT; 4.1. Evaluation of Heat Transfer Coefficient, Hi and Overall Heat Transfer Coefficient, Ui ; 5. RESULTS AND DISCUSSIONS ; CONCLUSION ; ACKNOWLEDGMENT ; REFERENCES

Chapter 6 EVALUATION OF CORRELATIONS FOR SUPERCRITICAL CO2 COOLING CONVECTIVE HEAT TRANSFER AND PRESSURE DROP IN MACRO- AND MICRO-SCALE TUBES ABSTRACT ; NOMENCLATURE ; Greeks; Subscripts ; INTRODUCTION; Heat Transfer and Pressure Drop Correlations for Supercritical CO2 ; Heat Transfer Correlations ; Pressure Drop Correlations ; Evaluation of the Heat Transfer and Pressure Drop Correlations for Supercritical CO2 ; CONCLUSION ; REFERENCES ; Chapter 7 MIXED CONVECTION FLOW IN A VERTICAL CHANNEL FILLED WITH A FLUID-SATURATED POROUS MEDIUM DIVIDED BY A PERFECTLY CONDUCTIVE BAFFLE

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