(EBook PDF) Flow and Heat Transfer in Geothermal Systems. Basic Equations for Describing and Modelling Geothermal Phenomena and Technologies 1st Edition Aniko Toth, Elemer Bobok 0128005254 9780128005255

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ISBN-10 ‏ : ‎0128005254 

ISBN-13 ‏ : ‎ 9780128005255

Author:  Aniko Toth, Elemer Bobok 

Flow and Heat Transfer in Geothermal Systems: Basic Equations for Description and Modeling Geothermal Phenomena and Technologies is the ideal reference for research in geothermal systems and alternative energy sources. Written for a wide variety of users, including geologists, geophysicists, hydro-geologists, and engineers, it offers a practical framework for the application of heat and flow transport theory. Authored by two of the world’s foremost geothermal systems experts, whose combined careers span more than 50 years, this text is a one-stop resource for geothermal system theory and application. It will help geoscientists and engineers navigate the wealth of new research that has emerged on the topic in recent years.

Flow and Heat Transfer in Geothermal Systems. Basic Equations for Describing and Modelling Geothermal Phenomena and Technologies 1st Table of contents:

Chapter 1. What Is Geothermal Energy?
1.1. Introduction
1.2. The Nature and Origin of Geothermal Energy
1.3. Geothermal Reservoirs
Chapter 2. Basic Equations of Fluid Mechanics and Thermodynamics
2.1. Elements of Transport Theory
2.2. Balance Equations
2.3. Mechanical Equilibrium of Fluids
Chapter 3. Transport Processes in Geothermal Reservoirs
3.1. Properties of Porous Media
3.2. Darcy’s Law
3.3. The Complex Continuum Model
3.4. The Principle of Conservation of Mass
3.5. The Balance Equation of Momentum
3.6. The Balance Equation of Internal Energy
Chapter 4. Heat Conduction in Rocks
4.1. Differential Equation of Heat Conduction
4.2. Steady One-Dimensional Heat Conduction
4.3. Steady Axisymmetric Heat Conduction
4.4. Transient Axisymmetric Heat Conduction
4.5. Heat Conduction With Heat Generation
4.6. Heat Conduction In and Filling Sinking Sedimentary Basins
Chapter 5. Natural State of Undisturbed Geothermal Reservoirs
5.1. Geothermal Reservoirs in Hydrostatic State
5.2. Consolidation of a Sedimentary Aquifer
5.3. Over-Pressured Geothermal Reservoirs
5.4. Recoverable Fluid Mass by Elastic Expansion
5.5. Thermal Convection Currents in Porous Media
Chapter 6. Two-Dimensional Steady Flow Through Porous Media
6.1. Basic Equation
6.2. Integration of the Conjugate Velocity Field
6.3. Examples of Analytic Functions Representing Two-Dimensional Potential Flows
6.4. Method of Superposition
6.5. The Heles–Shaw Flow
Chapter 7. Flow Through Producing Wells
7.1. Flow Toward the Well in a Porous Reservoir
7.2. The Fluid Upflow Through the Well
7.3. Two-Phase Flow in Wells Induced by Dissolved Gas
7.4. Two-Phase Flow in Wells Induced by Flashing
Chapter 8. Artificial Lift by Submersible Pumps
8.1. Main Types of Downhole Pumps
8.2. Theoretical Head of the Centrifugal Impeller
8.3. Head Losses of Centrifugal Pumps
8.4. Flow in Pipes With Mechanical Energy Addition
8.5. Dimensionless Performance Coefficients
8.6. Cavitation in Submersible Pumps
Chapter 9. Heat Transfer in Wells
9.1. Temperature Distribution of Production Wells
9.2. Temperature Distribution of Injection Wells
Chapter 10. Gathering System of Geothermal Fluids
10.1. One-Dimensional Approximation for Flow in Pipes
10.2. Basic Equations for One-Dimensional Flow in Pipes
10.3. Determination of the Apparent Turbulent Shear Stress According to the Mixing Length Theory
10.4. Turbulent Flow Through Pipes
10.5. Head Loss in Straight Cylindrical Pipes
10.6. Flow Patterns in Horizontal Steam–Water Mixture Flow
10.7. Pressure Loss of a Low-Velocity Superheated Steam Flow
10.8. Heat Transfer of Hot Water Transporting Pipelines
Chapter 11. Geothermal Power Generation
11.1. Change of State of Wet Steam
11.2. The Clausius–Rankine Cycle
11.3. Steam Turbines
11.4. Geothermal Power Plants
Chapter 12. Propagation of the Cooled Region in a Small Fractured Geothermal Reservoir
12.1. Introduction
12.2. The Conceptual Model
12.3. The Mathematical Model
12.4. Heat Transfer in the Fracture
12.5. Summary
Chapter 13. Borehole Heat Exchangers
13.1. Introduction
13.2. The Mathematical Model
13.3. Solution
13.4. Results
Chapter 14. Flow and Heat Transfer During Drilling Operations
14.1. Introduction
14.2. Rheology of the Drilling Fluids
14.3. Laminar Flow of Pseudoplastic Fluids in Pipes
14.4. Pseudoplastic Fluid Flow in Annuli
14.5. Turbulent Flow of Non-Newtonian Fluids in Pipes
14.6. Turbulent Flow of Pseudoplastic Fluids Through Annuli
14.7. Determination of the Temperature Distribution in the Circulating Drilling Fluid
Chapter 15. A Case Study About a Serious Industrial Accident
15.1. The Brief Story of the Blowout
15.2. The Hydrodynamic and Thermodynamic Reconstruction of the Blowout
Chapter 16. Miscellaneous Geothermal Applications
16.1. A Prospective Geothermal Potential of an Abandoned Copper Mine
16.2. Geothermal Deicing of a Mine Tunnel
16.3. Conclusions

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