UID:
almafu_9960073719102883
Format:
1 online resource
Note:
Description based upon print version of record.
,
Front Cover -- FLOW AND HEAT TRANSFER IN GEOTHERMAL SYSTEMS -- FLOW AND HEAT TRANSFER IN GEOTHERMAL SYSTEMS: Basic Equations for Describing and Modeling Geothermal Phenomena and Technologies -- Copyright -- Contents -- Preface -- Acknowledgments -- 1 - What Is Geothermal Energy? -- 1.1 INTRODUCTION -- 1.2 THE NATURE AND ORIGIN OF GEOTHERMAL ENERGY -- 1.3 GEOTHERMAL RESERVOIRS -- References -- 2 - Basic Equations of Fluid Mechanics and Thermodynamics -- 2.1 ELEMENTS OF TRANSPORT THEORY -- 2.2 BALANCE EQUATIONS -- 2.2.1 The Principle of Conservation of Mass -- 2.2.2 The Balance of Momentum -- 2.2.3 The Balance of Angular Momentum -- 2.2.4 The Balance of Kinetic Energy -- 2.2.5 The Principle of Conservation of Energy -- 2.2.6 The Balance of Internal Energy -- 2.2.7 The Balance of Entropy -- 2.3 MECHANICAL EQUILIBRIUM OF FLUIDS -- References -- 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 -- References -- 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 -- References -- 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 -- Reference -- 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 -- Reference -- 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 -- References -- 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 -- References -- 9 - Heat Transfer in Wells -- 9.1 TEMPERATURE DISTRIBUTION OF PRODUCTION WELLS -- 9.2 TEMPERATURE DISTRIBUTION OF INJECTION WELLS -- References -- 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 -- References -- 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 -- 11.4.1 Single Flash Steam Power Plants -- 11.4.2 Dry-Steam Power Plants -- 11.4.3 Binary Cycle Power Plants -- References -- 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 -- Acknowledgment -- References -- 13 - Borehole Heat Exchangers -- 13.1 INTRODUCTION -- 13.2 THE MATHEMATICAL MODEL -- 13.3 SOLUTION -- 13.4 RESULTS -- Acknowledgment -- References -- 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 -- References -- 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 -- 15.2.1 Available Data Measured During the Blowout -- 15.2.2 The Flow in the Reservoir and the Well -- 15.2.3 Temperature Distribution in the Flowing Well -- References -- 16 - Miscellaneous Geothermal Applications -- 16.1 A PROSPECTIVE GEOTHERMAL POTENTIAL OF AN ABANDONED COPPER MINE -- 16.1.1 Geological Background -- 16.1.2 The Story of the Mine -- 16.1.3 Geothermal Conditions -- 16.2 GEOTHERMAL DEICING OF A MINE TUNNEL -- 16.2.1 Geological Background -- 16.2.2 Using Geothermal Energy -- 16.2.2.1 Heating Requirement for the Icing Intake Tunnel -- 16.2.3 Geothermal Sources for Heating the Mine Tunnel -- 16.3 CONCLUSIONS -- References -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- K -- L -- M -- N -- O -- P -- R -- S -- T -- U -- V -- W -- Z -- Back Cover.
Additional Edition:
ISBN 9780128002773
Additional Edition:
ISBN 0128002778
Additional Edition:
ISBN 9780128005255
Additional Edition:
ISBN 0128005254
Language:
English
Bookmarklink
