Thermofluid Modeling for Energy Efficiency Applications 1st Edition by M Masud K Khan, Nur MS Hassan ISBN 012802397X 9780128023976
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ISBN 10: 012802397X
ISBN 13: 9780128023976
Author: M Masud K Khan, Nur MS Hassan
Thermofluid Modeling for Sustainable Energy Applications provides a collection of the most recent, cutting-edge developments in the application of fluid mechanics modeling to energy systems and energy efficient technology.
Each chapter introduces relevant theories alongside detailed, real-life case studies that demonstrate the value of thermofluid modeling and simulation as an integral part of the engineering process.
Research problems and modeling solutions across a range of energy efficiency scenarios are presented by experts, helping users build a sustainable engineering knowledge base.
The text offers novel examples of the use of computation fluid dynamics in relation to hot topics, including passive air cooling and thermal storage. It is a valuable resource for academics, engineers, and students undertaking research in thermal engineering.
Thermofluid Modeling for Energy Efficiency Applications 1st Table of contents:
Chapter 1. Performance Evaluation of Hybrid Earth Pipe Cooling with Horizontal Piping System
1.1 Introduction
1.2 Earth Pipe Cooling Technology
1.3 Green Roof System
1.4 Experimental Design and Measurement
1.5 Model Description
1.6 Results and Discussion
1.7 Conclusion
Acknowledgments
References
Chapter 2. Thermal Efficiency Modeling in a Subtropical Data Center
2.1 Introduction
2.2 CFD Modeling of Data Center
2.3 Data Center Description
2.4 Results and Discussion
2.5 CRAC Performance
2.6 Conclusions and Recommendations
Nomenclature
References
Chapter 3. Natural Convection Heat Transfer in the Partitioned Attic Space
3.1 Introduction
3.2 Problem Formulation
3.3 Numerical Approach and Validation
3.4 Results and Discussions
3.5 Conclusions
References
Chapter 4. Application of Nanofluid in Heat Exchangers for Energy Savings
4.1 Introduction
4.2 Types of Nanoparticles and Nanofluid Preparation
4.3 Application of Nanofluid in Heat Exchangers
4.4 Physical Model and Boundary Values
4.5 Governing Equations
4.6 Thermal and Fluid Dynamic Analysis
4.7 Thermophysical Properties of Nanofluid
4.8 Numerical Method
4.9 Code Validation
4.10 Grid Independence Test
4.11 Results and Discussions
4.12 Case Study for a Typical Heat Exchanger
4.13 Conclusions
Nomenclature
References
Chapter 5. Effects of Perforation Geometry on the Heat Transfer Performance of Extended Surfaces
5.1 Introduction
5.2 Problem Description
5.3 Governing Equations
5.4 Numerical Model Formulation
5.5 Results and Discussions
5.6 Conclusions
References
Chapter 6. Numerical Study of Flow Through a Reducer for Scale Growth Suppression
6.1 Introduction
6.2 The Bayer Process
6.3 Fundamentals of Scaling
6.4 Particle Deposition Mechanisms
6.5 Fluid Dynamics Analysis in Scale Growth and Suppression
6.6 Target Model
6.7 Numerical Method
6.8 Grid Independence Test
6.9 Results and Discussion
6.10 Conclusions
Nomenclature
References
Chapter 7. Parametric Analysis of Thermal Comfort and Energy Efficiency in Building in Subtropical Climate
7.1 Introduction
7.2 Climate Condition
7.3 Envelope Construction
7.4 Simulation Principles
7.5 Results and Analysis
7.6 Conclusions
References
Chapter 8. Residential Building Wall Systems: Energy Efficiency and Carbon Footprint
8.1 Introduction
8.2 Design Patterns of Australian Houses
8.3 House Wall Systems
8.4 Energy Star Rating and Thermal Performance Modeling Tools
8.5 Results
8.6 Discussion
8.7 Concluding Remarks
References
Chapter 9. Cement Kiln Process Modeling to Achieve Energy Efficiency by Utilizing Agricultural Biomass as Alternative Fuels
9.1 Introduction
9.2 Cement Manufacturing Process
9.3 Alternative Fuels
9.4 Agricultural Biomass
9.5 Model Development and Validation
9.6 Simulation Results and Discussion
9.7 Conclusion
References
Chapter 10. Modeling and Simulation of Heat and Mass Flow by ASPEN HYSYS for Petroleum Refining Process in Field Application
10.1 Introduction
10.2 Heating Furnace
10.3 Distillation Unit
10.4 Simulation and Optimization of the Refining Processes
10.5 Conclusion
References
Chapter 11. Modeling of Solid and Bio-Fuel Combustion Technologies
11.1 Introduction
11.2 Different Carbon Capture Technologies
11.3 Status of Coal/Biomass Combustion Technology
11.4 Modeling of Coal/Biomass Combustion
11.5 Modeling of Packed Bed Combustion
11.6 Modeling of Slagging in Combustion
11.7 Example A: Lab-Scale Modeling for Coal Combustion
11.8 Example B: Lab-Scale Modeling for Coal/Biomass Co-Firing
11.9 Conclusion
Nomenclature
References
Chapter 12. Ambient Temperature Rise Consequences for Power Generation in Australia
12.1 Introduction
12.2 Overall Impact on Power Generation in Australia
12.3 Reduction of Power Generation Efficiency in Australia
12.4 Concluding Remarks
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