Zheng, Hongfei,
Solar energy desalination technology / Hongfei Zheng. - Amsterdam, Netherlands : Elsevier, 2017. - xvi, 768 pages : illustrations, 24 cm
Includes bibliographical references and index.
Machine generated contents note: General Problems in Sea water Desalination -- Fresh Water Resource Shortage and Its Solutions -- Composition and Properties of Seawater -- Summary of General Seawater Desalination Methods -- Distillation -- Freezing Method -- Electrodialysis -- Reverse Osmosis -- Solvent Extraction -- Hydrate Method -- Ion-Exchange Method -- Absorption Method -- Air Humidification and Dehumidification Method -- Membrane Distillation -- Forward Osmosis -- The Historical Evolution of the Solar Energy Seawater Desalination -- The Classification and Development of Solar Desalination Technology -- The Classification of Solar Energy Seawater Devices -- Thermal Method Solar Energy Seawater Desalination Technology -- Membrane Method Solar Energy Seawater Desalination Technology -- Combination of Thermal and Membrane Method -- Solar System Combined With Traditional Desalination Device -- Solar Energy Power-Desalting Cogeneration Technology -- The Main Solar Desalination Systems Operating in the World -- Facing Problems and Development Direction of Solar Desalination -- Facing Problems of Conventional Solar Distillation Technology -- Development Direction of Solar Desalination -- References -- Solar Energy Utilization and Its Collection Devices -- Solar Radiation Energy -- The Sun and Its Energy -- Solar Constant -- Variation in Extraterrestrial Radiation -- Attenuation of Solar Radiation in Atmosphere -- Spectral Distribution of Extraterrestrial Radiation -- Catalog of Solar Collectors and Their Fundamental Technologies -- Flat-Plate Solar Collector -- Structure of Flat-Plate Solar Collector -- Performance Parameters of Flat-Plate Solar Collector -- Heat Loss Coefficient of Flat-Plate Solar Collector -- Factors Influencing the Efficiency of a Flat-Plate Solar Collector -- Choice of the Flat-Plate Solar Collector -- Vacuum Tube Solar Collector -- All-Glass Vacuum Tube Solar Collector -- Metal-Glass Vacuum Tube Solar Collectors -- Modules of Vacuum Solar Collector -- Solar Pond -- Basic Concept of Solar Ponds -- Basic Structure of Solar Ponds and Basic Conditions to Maintain Stability -- Solar Pond Liquid and Absorption of Solar Radiation at Pond Bottom -- Thermal Efficiency of Solar Pond and Its Characteristics in Steady State and Transient State -- Combination of Solar Pond and Seawater Desalination -- Concentrating Solar Collector and Its Characteristics -- Focusing Solar Collector System -- Basic Structure of Concentrating Solar Collector -- Influence of Concentration Ratio on System Collecting Temperature -- Thermal Efficiency of Solar Concentration System -- Nonimagining Concentrator -- Structural Characteristics of Compound Parabolic Concentrators -- Orientation of Compound Parabolic Concentrator and Its Received Energy -- Paraboloid Solar Concentrator -- Dish Paraboloid Concentrator System -- Trough Paraboloid Solar Concentrator -- Array Fresnel Lens Reflective Concentration System -- Structure of Array Fresnel Lens Reflective Concentration System -- Structure and Choice of Receiver -- Transmission-Type Line-Focus Fresnel Solar Concentrator -- Concentration Principle of Fresnel Lens -- Optical Loss of Fresnel Lens -- Concentration Ratio of Fresnel Lens -- Curve-Shaped Fresnel Lens -- Fresnel Lens Used for Solar Energy Field -- Tower Solar Concentration System -- Working Principle of Tower Solar Concentrator -- Heliostats for Tower Solar Concentration System -- Central Receiver for Tower Solar Concentration System -- Heat Storage System of Tower Solar Power Generation -- Optical and Thermal Efficiencies of Tower Solar Concentration System -- Compound Solar Concentrator With Multiple Surfaces and Multiple Elements -- Introduction -- Compound Solar Concentrator With Multiple Elements and Multiple Surfaces -- References -- Fundamental Relationships of Heat and Mass Transfer in Solar Seawater Desalination Systems -- Physical Properties and State Parameters of Moist Air -- Physical Properties of Moist Air -- State Parameters of Moist Air -- Psychrometric Chart and the Basic Thermodynamic Process of Moist Air -- Psychrometric Chart (h-d Diagram) -- Basic Thermodynamic Process of Moist Air -- Heat and Moisture Transfer in Direct Contact Between Air and Water -- Heat and Moisture Transfer Between Air and Water -- Phase Change in Direct Contact Between Air and Water -- Lewis Relationship and Its Application -- Water Vapor Generation Under Constant Pressure -- Three Stages of Water Vapor Generation Under Constant Pressure -- Table of Thermodynamic Properties for Steam (Steam Table) -- Liquid Boiling Under Constant Pressure -- Pool Boiling -- Heat Transfer Coefficient of Convective Boiling in Tubes -- The Influence of Surface Roughness -- Factors Affecting Heat Transfer of Liquid Boiling -- Condensation of Water Vapor Under Constant Pressure -- Heat Transfer of Film-Wise Condensation on Vertical Plate -- Film Condensation Outside the Horizontal Tube -- Film Condensation Inside the Horizontal Tube -- Dropwise Condensation -- Analysis of the Factors Influencing Condensation Heat Transfer -- Falling Film Evaporation of Water Under Constant Pressure -- Falling Film Evaporation on Vertical Plate -- Falling Film Evaporation on the Horizontal Tube -- Falling Film Evaporation in Vertical Tube -- Enhancement of Falling Film Evaporation and Condensation -- Heat Transfer on Plate and Tube Wall in Convective Boundary Layer -- Heat Exchangers and Heat Transfer Rate Calculations -- Heat Exchanger Types -- Heat Transfer Rate Calculation -- The Log Mean Temperature Difference of the Heat Exchangers -- Theoretical Power Consumption in Desalination and Minimum Heat Consumption in Distillation -- The Perfect Distillation Process Driven by Solar Collector -- Perfect Single-Effect Solar Distillation Process -- Single-Effect Ideal Distillation Process Directly Heated by Solar Collector -- Single-Effect Ideal Distillation Process With Collector Supplying Energy by Generating Electricity -- The Finite Time Thermodynamic Process of Solar Distillation -- Comparison of Several Operation Modes -- The Performance Evaluation of Solar Desalination System -- The Efficiency of Solar Desalination System -- Gain Output Ratio and Performance Ratio of Solar Desalination System -- Energy Recovery Ratio of Solar Desalination System -- References -- Traditional Solar Desalination Units -- Operating Principle of Basin Type Solar Stills -- Performance Analysis of Basin Type Solar Stills -- Performance Coefficient of Solar Still -- Determination of the Natural Convection Coefficient hc in the Still -- Natural Convective Heat Transfer in the Still and Correction of Gr -- Heat Transfer by Evaporation -- Radiation Heat Transfer -- The Determination of Natural Convection Heat Transfer Coefficient -- A New Group of Relations Forecasting Water Production -- Experimental Verification of the Theoretical Relations -- Operation of Basin Type Solar Stills Under Actual Weather Conditions -- Daily Operation Situation of Basin Type Solar Stills -- The Whole-Year Operation of Basin Type Solar Stills -- Influence of Other Parameters on the Performance of Basin Type Solar Stills -- Multistage Basin Type Solar Stills -- Basin Type Solar Stills With Outer Condenser -- Basin Type Solar Stills With Porous Absorbent Material -- Concentrating Type Passive Solar Stills -- Inclined Type Solar Still -- Other Shaped Passive Solar Stills -- Simple Emergency Distiller -- Solar Still Combined With Green House -- Distiller With Transparent Film as the Cover -- Spherical Solar Still -- Integral Molding Plastic Solar Still -- The Main Shortages and Improvement Direction of Basin Type Solar Stills -- Three Main Shortages -- The Maximum Efficiency of the Basin Solar Still -- Energy Gain and Loss of Each Component of Solar Stills -- References -- Active Solar Distiller -- The Basin-Type Solar Still Driven by Flat-Plate Solar Collectors -- Performance Analyses of the Device -- Experimental Operation of the Device -- The Active Basin-Type Solar Still With Glass Cover Cooling -- The Active Basin-Type Solar Still With Thermal Energy Storage Tank -- The Basin-Type Solar Still With Active Outer Condenser -- The Basin-Type Solar Still With Actively Recovering Latent Heat Outer Condenser -- Multieffect Basin-Type Solar Still Combined With Solar Collectors ch. 1 1.1. 1.2. 1.3. 1.3.1. 1.3.2. 1.3.3. 1.3.4. 1.3.5. 1.3.6. 1.3.7. 1.3.8. 1.3.9. 1.3.10. 1.3.11. 1.4. 1.5. 1.5.1. 1.5.2. 1.5.3. 1.5.4. 1.5.5. 1.5.6. 1.5.7. 1.6. 1.6.1. 1.6.2. ch. 2 2.1. 2.1.1. 2.1.2. 2.1.3. 2.1.4. 2.1.5. 2.2. 2.3. 2.3.1. 2.3.2. 2.3.3. 2.3.4. 2.3.5. 2.4. 2.4.1. 2.4.2. 2.4.3. 2.5. 2.5.1. 2.5.2. 2.5.3. 2.5.4. 2.5.5. 2.6. 2.6.1. 2.6.2. 2.6.3. 2.6.4. 2.7. 2.7.1. 2.7.2. 2.8. 2.8.1. 2.8.2. 2.9. 2.9.1. 2.9.2. 2.10. 2.10.1. 2.10.2. 2.10.3. 2.10.4. 2.10.5. 2.11. 2.11.1. 2.11.2. 2.11.3. 2.11.4. 2.11.5. 2.12. 2.12.1. 2.12.2. ch. 3 3.1. 3.1.1. 3.1.2. 3.2. 3.2.1. 3.2.2. 3.3. 3.3.1. 3.3.2. 3.3.3. 3.4. 3.4.1. 3.4.2. 3.5. 3.5.1. 3.5.2. 3.5.3. 3.5.4. 3.6. 3.6.1. 3.6.2. 3.6.3. 3.6.4. 3.6.5. 3.7. 3.7.1. 3.7.2. 3.7.3. 3.8. 3.9. 3.10. 3.10.1. 3.10.2. 3.10.3. 3.11. 3.12. 3.12.1. 3.12.2. 3.12.3. 3.12.4. 3.12.5. 3.13. 3.13.1. 3.13.2. 3.13.3. ch. 4 4.1. 4.2. 4.3. 4.4. 4.4.1. 4.4.2. 4.4.3. 4.4.4. 4.4.5. 4.4.6. 4.5. 4.5.1. 4.5.2. 4.5.3. 4.6. 4.7. 4.8. 4.9. 4.10. 4.11. 4.11.1. 4.11.2. 4.11.3. 4.11.4. 4.11.5. 4.12. 4.12.1. 4.12.2. 4.12.3. ch. 5 5.1. 5.1.1. 5.1.2. 5.2. 5.3. 5.4. 5.5. 5.6. Note continued: Multieffect Basin-Type Solar Still Heated Actively by Solar Collectors -- Multistage Stacked Tray Solar Still With Enhanced Condensing Faces -- The Transient Performance of the Device -- The Relationship of Productivity and Operation Temperature -- Steady-State Performance of the Device -- The Relationship of the Operation Temperature and Input Power -- Conclusions -- Multistage Stacked Tray Solar Still Driven by Double Heat Sources -- Characteristics and Operating Principle of the Solar Still -- Experiment Results With Steady Heating -- The Relationship Between Water Production Rate and Temperature -- Performance Coefficient of the Device -- Experiment Under Actual Weather Conditions -- Conclusions -- Tubular Solar Desalination Device -- Single-Effect Tubular Distiller -- Two-Effect Tubular Distiller -- Experiment With a Three-Effect Device -- Performance Comparison of Three-Effect Devices -- The Performance of a Tubular Still Under Negative Pressure -- Experiments With Different Gas Media -- Conclusions -- Multieffect Concentric Vertical Tube Solar Still -- The Structure and Operational Principle of the Device -- Results and Discussion -- Conclusions -- The Solar Distiller With Single-Stage Falling Film Evaporation and Condensation -- The Solar Distiller With Multiple-Stages Falling Film Evaporation and Condensation -- The Solar Distiller Enhanced by Power -- Basin Solar Distiller With a Water-Cooled Condenser Outside -- Focus Solar Still of Small Vacuum Strengthened Evaporation -- A Multieffect Thermal Regeneration Solar Desalination Unit With Horizontal Tube Falling Film Evaporation and Closed Circulation -- Operational Principle of the Experimental Unit -- Description of the Experimental Unit -- The Performance of the Unit -- The Unit Operating Under Practical Weather Conditions -- Conclusions -- A Self-Storing Water Vertical Plate Solar Distiller -- Solar Water Desalination Using an Air Bubble Column Humidifier -- Introduction -- Experimental Setup and Efficiency Calculation -- Results and Discussion -- Conclusion -- Theoretical Analysis of a Vertical Multiple-Effect Diffusion Solar Still Coupled With a Tilted Wick Still -- Vertical Multiple-Effect Diffusion Solar Still Coupled With a Tilted Wick Still -- Results and Discussion -- Conclusions -- References -- Humidification -- Dehumidification Solar Desalination Systems -- The Principle and Category of Humidification -- Dehumidification Solar Desalination Systems -- Process Description of Humidification -- Dehumidification (HD) Desalination -- The Operation and Evaluation Methods of HD Desalination System -- Energy Analysis of HD Desalination System -- Performance Optimization by Pinch Technology -- Single Effect System Optimization -- Multieffect System Optimization -- Comparisons -- The Minimum Work Required for a Solar HDD Process -- An Ideal Humidification -- Dehumidification Desalination (HDD) -- The Minimum Work Required for the Dehumidification Process -- The Minimum Work Required for Evaporation of Seawater -- The Maximum GOR of the Solar HDD System -- Conclusions -- Heating Water Type Solar HDD System -- Heating Air Type Solar HDD Systems -- Solar Water and Air Heating Compound HDD System -- Multieffect Humidification -- Dehumidification Solar Desalination System -- A Closed Circulation Solar Still With Enhanced Falling Film Evaporation and AirFlow Absorption -- The Energy and Mass Balance in the Closed Circulation Solar Still -- Operation Principle of the Closed Circulation Solar Still -- Description of the Experimental Unit -- Results and Discussion -- System Operating Under the Practical Weather -- Heat and Mass Transfer Analysis of the System -- Conclusions and Discussions -- Tandem Multieffect Isothermal Heating Solar Desalination System Based on the Humidification -- Dehumidification Processes -- Description of the Experimental Setup and the Working Principle -- Results and Discussion -- Conclusions -- Other Typical Air Humidification -- Dehumidification Solar Desalination Systems -- Tower Type Air Humidification -- Dehumidification Solar Distiller -- Humidification -- Dehumidification Solar Desalination System With Falling Film Evaporation -- Experiment of the System -- References -- Solar Desalination System Combined With Conventional Technologies -- Multistage Flash Solar Desalination System -- The Flash Principle and Technology -- Solar Desalination With Multistage Flash Processes -- Multieffect Solar Distillation System -- The Principle of Multieffect Distillation -- The Classification of the Multieffect Distillation Technological Process -- The Classification of Multieffect Distillation Equipment -- The Temperature Difference Between the Effects and the Factor Influencing Effect Number -- Process Conditions -- The Advantages and Disadvantages of Multieffect Distillation -- The Experimental Operation of a Multieffect Solar Distillation System -- Solar Vapor Compression Desalination System -- Compression Distillation Principle -- Compression Distillation Processes -- Main Operation Modes of Compression Distillation -- Advantages and Disadvantages of Compression Distillation -- Solar Compression Distillation Experiments -- Desalination Using the Partial Pressure Difference Between Freshwater and Seawater -- Horizontal Tube Falling Film Evaporation and Multieffect Recover Solar Desalination System -- Experiment Device and Operation Principle -- Experimental Results and Analysis -- System Operating Under Actual Weather -- Conclusions -- Low-Temperature Multieffect Desalination System Together With Solar Pond -- Reverse Osmosis Desalination System Driven by Solar Photovoltaic Panel -- Reverse Osmosis Desalination System Driven by Solar PV/T Device -- Reverse Osmosis Desalination System Driven by Solar Power Cycle System -- Large-Scale Solar Desalination by Combination With Concentrated Solar Power: Concept and Analysis -- References -- Absorption and Adsorption Solar Desalination System -- Features and Performance of Absorption and Adsorption Working Substance -- Solar Absorption Desalination System -- The Solar Absorption System Integrated With Industrial Seawater Desalination -- Single-Effect Solar Absorption Desalination System -- Multiple-Effect Solar Absorption Seawater Desalination System -- Practical Test and Evaluation of a Multiple-Effect Solar Absorption Seawater Desalination System -- Structure of Experimental Facilities -- Working Principles of Experimental Facilities -- Results and Analysis of the Experiment -- Simulation Calculation During the Heating of Solar Collector -- Adsorption Solar Seawater Desalination System -- Solar Absorption System Combined With Industrial Seawater Desalination Technology -- Single-Effect Solar Adsorption Desalination System -- Multiple-Effect Solar Adsorption Desalination System -- References -- Solar Concentrating Directly to Drive Desalination Technologies -- Introduction -- Challenges in Solar Desalination Technology -- A New Way to Solve These Problems -- Concentrated Light-Driven Solar Desalination System -- Solar Desalination Systems Directly Driven by Dish Concentrator -- The Solar Desalination System Directly Driven by Linear Fresnel Lens Concentrator -- The Solar Desalination System Directly Driven by Tower Concentrator -- Floating Solar Desalination Film -- The Enhanced Methods of Concentrating Direct Heating Seawater for Evaporation -- General Rules of Sunlight Transmission in Seawater -- Adding Black Particles as Absorbers in Water -- Absorption Enhancement by Colored Water -- Adding the Black Columns or Plates in Water as the Receivers -- References -- The Benefit Evaluation and Material Selecting -- The Economic Feasibility of Solar Desalination System -- The Economic Evaluation Method of Solar Desalination System -- Timeliness of Funds -- Economic Analysis of an Installed Solar Desalination System -- Case Calculation of Two Actual Systems -- Economic Analysis of the Solar Desalination System Under Site Selection State -- System Scale Influence on the Fresh Water Cost -- Multiple-Factor Analysis of the Fresh Water Cost -- The Material Selecting of Solar Desalination System -- Corrosion of Metals Caused by Seawater -- The Influence Factors of Seawater Corroding Metallic Materials -- Heat Conductivity Influence on the Material Selection -- Other Performance of Metals' Influence on Material Selection -- References. 5.7. 5.8. 5.8.1. 5.8.2. 5.8.3. 5.8.4. 5.8.5. 5.9. 5.9.1. 5.9.2. 5.9.3. 5.9.4. 5.9.5. 5.9.6. 5.10. 5.10.1. 5.10.2. 5.10.3. 5.10.4. 5.10.5. 5.10.6. 5.10.7. 5.11. 5.11.1. 5.11.2. 5.11.3. 5.12. 5.13. 5.14. 5.14.1. 5.14.2. 5.15. 5.15.1. 5.15.2. 5.15.3. 5.15.4. 5.15.5. 5.16. 5.17. 5.17.1. 5.17.2. 5.17.3. 5.17.4. 5.18. 5.18.1. 5.18.2. 5.18.3. ch. 6 6.1. 6.2. 6.2.1. 6.2.2. 6.3. 6.3.1. 6.3.2. 6.3.3. 6.4. 6.4.1. 6.4.2. 6.4.3. 6.4.4. 6.4.5. 6.5. 6.6. 6.7. 6.8. 6.9. 6.9.1. 6.9.2. 6.9.3. 6.9.4. 6.9.5. 6.9.6. 6.9.7. 6.10. 6.10.1. 6.10.2. 6.10.3. 6.11. 6.11.1. 6.11.2. 6.11.3. ch. 7 7.1. 7.1.1. 7.1.2. 7.2. 7.2.1. 7.2.2. 7.2.3. 7.2.4. 7.2.5. 7.2.6. 7.2.7. 7.3. 7.3.1. 7.3.2. 7.3.3. 7.3.4. 7.3.5. 7.4. 7.5. 7.5.1. 7.5.2. 7.5.3. 7.5.4. 7.6. 7.7. 7.8. 7.9. 7.10. ch. 8 8.1. 8.2. 8.3. 8.3.1. 8.3.2. 8.4. 8.4.1. 8.4.2. 8.4.3. 8.4.4. 8.5. 8.6. 8.6.1. 8.6.2. ch. 9 9.1. 9.1.1. 9.1.2. 9.2. 9.2.1. 9.2.2. 9.2.3. 9.3. 9.4. 9.4.1. 9.4.2. 9.4.3. 9.4.4. ch. 10 10.1. 10.2. 10.2.1. 10.2.2. 10.2.3. 10.2.4. 10.2.5. 10.2.6. 10.3. 10.3.1. 10.3.2. 10.3.3. 10.3.4.
9780128054116 (pbk.)
2017446599
Saline water conversion.
TD479 / .Z54 2017
628.16725 / Zh So
Solar energy desalination technology / Hongfei Zheng. - Amsterdam, Netherlands : Elsevier, 2017. - xvi, 768 pages : illustrations, 24 cm
Includes bibliographical references and index.
Machine generated contents note: General Problems in Sea water Desalination -- Fresh Water Resource Shortage and Its Solutions -- Composition and Properties of Seawater -- Summary of General Seawater Desalination Methods -- Distillation -- Freezing Method -- Electrodialysis -- Reverse Osmosis -- Solvent Extraction -- Hydrate Method -- Ion-Exchange Method -- Absorption Method -- Air Humidification and Dehumidification Method -- Membrane Distillation -- Forward Osmosis -- The Historical Evolution of the Solar Energy Seawater Desalination -- The Classification and Development of Solar Desalination Technology -- The Classification of Solar Energy Seawater Devices -- Thermal Method Solar Energy Seawater Desalination Technology -- Membrane Method Solar Energy Seawater Desalination Technology -- Combination of Thermal and Membrane Method -- Solar System Combined With Traditional Desalination Device -- Solar Energy Power-Desalting Cogeneration Technology -- The Main Solar Desalination Systems Operating in the World -- Facing Problems and Development Direction of Solar Desalination -- Facing Problems of Conventional Solar Distillation Technology -- Development Direction of Solar Desalination -- References -- Solar Energy Utilization and Its Collection Devices -- Solar Radiation Energy -- The Sun and Its Energy -- Solar Constant -- Variation in Extraterrestrial Radiation -- Attenuation of Solar Radiation in Atmosphere -- Spectral Distribution of Extraterrestrial Radiation -- Catalog of Solar Collectors and Their Fundamental Technologies -- Flat-Plate Solar Collector -- Structure of Flat-Plate Solar Collector -- Performance Parameters of Flat-Plate Solar Collector -- Heat Loss Coefficient of Flat-Plate Solar Collector -- Factors Influencing the Efficiency of a Flat-Plate Solar Collector -- Choice of the Flat-Plate Solar Collector -- Vacuum Tube Solar Collector -- All-Glass Vacuum Tube Solar Collector -- Metal-Glass Vacuum Tube Solar Collectors -- Modules of Vacuum Solar Collector -- Solar Pond -- Basic Concept of Solar Ponds -- Basic Structure of Solar Ponds and Basic Conditions to Maintain Stability -- Solar Pond Liquid and Absorption of Solar Radiation at Pond Bottom -- Thermal Efficiency of Solar Pond and Its Characteristics in Steady State and Transient State -- Combination of Solar Pond and Seawater Desalination -- Concentrating Solar Collector and Its Characteristics -- Focusing Solar Collector System -- Basic Structure of Concentrating Solar Collector -- Influence of Concentration Ratio on System Collecting Temperature -- Thermal Efficiency of Solar Concentration System -- Nonimagining Concentrator -- Structural Characteristics of Compound Parabolic Concentrators -- Orientation of Compound Parabolic Concentrator and Its Received Energy -- Paraboloid Solar Concentrator -- Dish Paraboloid Concentrator System -- Trough Paraboloid Solar Concentrator -- Array Fresnel Lens Reflective Concentration System -- Structure of Array Fresnel Lens Reflective Concentration System -- Structure and Choice of Receiver -- Transmission-Type Line-Focus Fresnel Solar Concentrator -- Concentration Principle of Fresnel Lens -- Optical Loss of Fresnel Lens -- Concentration Ratio of Fresnel Lens -- Curve-Shaped Fresnel Lens -- Fresnel Lens Used for Solar Energy Field -- Tower Solar Concentration System -- Working Principle of Tower Solar Concentrator -- Heliostats for Tower Solar Concentration System -- Central Receiver for Tower Solar Concentration System -- Heat Storage System of Tower Solar Power Generation -- Optical and Thermal Efficiencies of Tower Solar Concentration System -- Compound Solar Concentrator With Multiple Surfaces and Multiple Elements -- Introduction -- Compound Solar Concentrator With Multiple Elements and Multiple Surfaces -- References -- Fundamental Relationships of Heat and Mass Transfer in Solar Seawater Desalination Systems -- Physical Properties and State Parameters of Moist Air -- Physical Properties of Moist Air -- State Parameters of Moist Air -- Psychrometric Chart and the Basic Thermodynamic Process of Moist Air -- Psychrometric Chart (h-d Diagram) -- Basic Thermodynamic Process of Moist Air -- Heat and Moisture Transfer in Direct Contact Between Air and Water -- Heat and Moisture Transfer Between Air and Water -- Phase Change in Direct Contact Between Air and Water -- Lewis Relationship and Its Application -- Water Vapor Generation Under Constant Pressure -- Three Stages of Water Vapor Generation Under Constant Pressure -- Table of Thermodynamic Properties for Steam (Steam Table) -- Liquid Boiling Under Constant Pressure -- Pool Boiling -- Heat Transfer Coefficient of Convective Boiling in Tubes -- The Influence of Surface Roughness -- Factors Affecting Heat Transfer of Liquid Boiling -- Condensation of Water Vapor Under Constant Pressure -- Heat Transfer of Film-Wise Condensation on Vertical Plate -- Film Condensation Outside the Horizontal Tube -- Film Condensation Inside the Horizontal Tube -- Dropwise Condensation -- Analysis of the Factors Influencing Condensation Heat Transfer -- Falling Film Evaporation of Water Under Constant Pressure -- Falling Film Evaporation on Vertical Plate -- Falling Film Evaporation on the Horizontal Tube -- Falling Film Evaporation in Vertical Tube -- Enhancement of Falling Film Evaporation and Condensation -- Heat Transfer on Plate and Tube Wall in Convective Boundary Layer -- Heat Exchangers and Heat Transfer Rate Calculations -- Heat Exchanger Types -- Heat Transfer Rate Calculation -- The Log Mean Temperature Difference of the Heat Exchangers -- Theoretical Power Consumption in Desalination and Minimum Heat Consumption in Distillation -- The Perfect Distillation Process Driven by Solar Collector -- Perfect Single-Effect Solar Distillation Process -- Single-Effect Ideal Distillation Process Directly Heated by Solar Collector -- Single-Effect Ideal Distillation Process With Collector Supplying Energy by Generating Electricity -- The Finite Time Thermodynamic Process of Solar Distillation -- Comparison of Several Operation Modes -- The Performance Evaluation of Solar Desalination System -- The Efficiency of Solar Desalination System -- Gain Output Ratio and Performance Ratio of Solar Desalination System -- Energy Recovery Ratio of Solar Desalination System -- References -- Traditional Solar Desalination Units -- Operating Principle of Basin Type Solar Stills -- Performance Analysis of Basin Type Solar Stills -- Performance Coefficient of Solar Still -- Determination of the Natural Convection Coefficient hc in the Still -- Natural Convective Heat Transfer in the Still and Correction of Gr -- Heat Transfer by Evaporation -- Radiation Heat Transfer -- The Determination of Natural Convection Heat Transfer Coefficient -- A New Group of Relations Forecasting Water Production -- Experimental Verification of the Theoretical Relations -- Operation of Basin Type Solar Stills Under Actual Weather Conditions -- Daily Operation Situation of Basin Type Solar Stills -- The Whole-Year Operation of Basin Type Solar Stills -- Influence of Other Parameters on the Performance of Basin Type Solar Stills -- Multistage Basin Type Solar Stills -- Basin Type Solar Stills With Outer Condenser -- Basin Type Solar Stills With Porous Absorbent Material -- Concentrating Type Passive Solar Stills -- Inclined Type Solar Still -- Other Shaped Passive Solar Stills -- Simple Emergency Distiller -- Solar Still Combined With Green House -- Distiller With Transparent Film as the Cover -- Spherical Solar Still -- Integral Molding Plastic Solar Still -- The Main Shortages and Improvement Direction of Basin Type Solar Stills -- Three Main Shortages -- The Maximum Efficiency of the Basin Solar Still -- Energy Gain and Loss of Each Component of Solar Stills -- References -- Active Solar Distiller -- The Basin-Type Solar Still Driven by Flat-Plate Solar Collectors -- Performance Analyses of the Device -- Experimental Operation of the Device -- The Active Basin-Type Solar Still With Glass Cover Cooling -- The Active Basin-Type Solar Still With Thermal Energy Storage Tank -- The Basin-Type Solar Still With Active Outer Condenser -- The Basin-Type Solar Still With Actively Recovering Latent Heat Outer Condenser -- Multieffect Basin-Type Solar Still Combined With Solar Collectors ch. 1 1.1. 1.2. 1.3. 1.3.1. 1.3.2. 1.3.3. 1.3.4. 1.3.5. 1.3.6. 1.3.7. 1.3.8. 1.3.9. 1.3.10. 1.3.11. 1.4. 1.5. 1.5.1. 1.5.2. 1.5.3. 1.5.4. 1.5.5. 1.5.6. 1.5.7. 1.6. 1.6.1. 1.6.2. ch. 2 2.1. 2.1.1. 2.1.2. 2.1.3. 2.1.4. 2.1.5. 2.2. 2.3. 2.3.1. 2.3.2. 2.3.3. 2.3.4. 2.3.5. 2.4. 2.4.1. 2.4.2. 2.4.3. 2.5. 2.5.1. 2.5.2. 2.5.3. 2.5.4. 2.5.5. 2.6. 2.6.1. 2.6.2. 2.6.3. 2.6.4. 2.7. 2.7.1. 2.7.2. 2.8. 2.8.1. 2.8.2. 2.9. 2.9.1. 2.9.2. 2.10. 2.10.1. 2.10.2. 2.10.3. 2.10.4. 2.10.5. 2.11. 2.11.1. 2.11.2. 2.11.3. 2.11.4. 2.11.5. 2.12. 2.12.1. 2.12.2. ch. 3 3.1. 3.1.1. 3.1.2. 3.2. 3.2.1. 3.2.2. 3.3. 3.3.1. 3.3.2. 3.3.3. 3.4. 3.4.1. 3.4.2. 3.5. 3.5.1. 3.5.2. 3.5.3. 3.5.4. 3.6. 3.6.1. 3.6.2. 3.6.3. 3.6.4. 3.6.5. 3.7. 3.7.1. 3.7.2. 3.7.3. 3.8. 3.9. 3.10. 3.10.1. 3.10.2. 3.10.3. 3.11. 3.12. 3.12.1. 3.12.2. 3.12.3. 3.12.4. 3.12.5. 3.13. 3.13.1. 3.13.2. 3.13.3. ch. 4 4.1. 4.2. 4.3. 4.4. 4.4.1. 4.4.2. 4.4.3. 4.4.4. 4.4.5. 4.4.6. 4.5. 4.5.1. 4.5.2. 4.5.3. 4.6. 4.7. 4.8. 4.9. 4.10. 4.11. 4.11.1. 4.11.2. 4.11.3. 4.11.4. 4.11.5. 4.12. 4.12.1. 4.12.2. 4.12.3. ch. 5 5.1. 5.1.1. 5.1.2. 5.2. 5.3. 5.4. 5.5. 5.6. Note continued: Multieffect Basin-Type Solar Still Heated Actively by Solar Collectors -- Multistage Stacked Tray Solar Still With Enhanced Condensing Faces -- The Transient Performance of the Device -- The Relationship of Productivity and Operation Temperature -- Steady-State Performance of the Device -- The Relationship of the Operation Temperature and Input Power -- Conclusions -- Multistage Stacked Tray Solar Still Driven by Double Heat Sources -- Characteristics and Operating Principle of the Solar Still -- Experiment Results With Steady Heating -- The Relationship Between Water Production Rate and Temperature -- Performance Coefficient of the Device -- Experiment Under Actual Weather Conditions -- Conclusions -- Tubular Solar Desalination Device -- Single-Effect Tubular Distiller -- Two-Effect Tubular Distiller -- Experiment With a Three-Effect Device -- Performance Comparison of Three-Effect Devices -- The Performance of a Tubular Still Under Negative Pressure -- Experiments With Different Gas Media -- Conclusions -- Multieffect Concentric Vertical Tube Solar Still -- The Structure and Operational Principle of the Device -- Results and Discussion -- Conclusions -- The Solar Distiller With Single-Stage Falling Film Evaporation and Condensation -- The Solar Distiller With Multiple-Stages Falling Film Evaporation and Condensation -- The Solar Distiller Enhanced by Power -- Basin Solar Distiller With a Water-Cooled Condenser Outside -- Focus Solar Still of Small Vacuum Strengthened Evaporation -- A Multieffect Thermal Regeneration Solar Desalination Unit With Horizontal Tube Falling Film Evaporation and Closed Circulation -- Operational Principle of the Experimental Unit -- Description of the Experimental Unit -- The Performance of the Unit -- The Unit Operating Under Practical Weather Conditions -- Conclusions -- A Self-Storing Water Vertical Plate Solar Distiller -- Solar Water Desalination Using an Air Bubble Column Humidifier -- Introduction -- Experimental Setup and Efficiency Calculation -- Results and Discussion -- Conclusion -- Theoretical Analysis of a Vertical Multiple-Effect Diffusion Solar Still Coupled With a Tilted Wick Still -- Vertical Multiple-Effect Diffusion Solar Still Coupled With a Tilted Wick Still -- Results and Discussion -- Conclusions -- References -- Humidification -- Dehumidification Solar Desalination Systems -- The Principle and Category of Humidification -- Dehumidification Solar Desalination Systems -- Process Description of Humidification -- Dehumidification (HD) Desalination -- The Operation and Evaluation Methods of HD Desalination System -- Energy Analysis of HD Desalination System -- Performance Optimization by Pinch Technology -- Single Effect System Optimization -- Multieffect System Optimization -- Comparisons -- The Minimum Work Required for a Solar HDD Process -- An Ideal Humidification -- Dehumidification Desalination (HDD) -- The Minimum Work Required for the Dehumidification Process -- The Minimum Work Required for Evaporation of Seawater -- The Maximum GOR of the Solar HDD System -- Conclusions -- Heating Water Type Solar HDD System -- Heating Air Type Solar HDD Systems -- Solar Water and Air Heating Compound HDD System -- Multieffect Humidification -- Dehumidification Solar Desalination System -- A Closed Circulation Solar Still With Enhanced Falling Film Evaporation and AirFlow Absorption -- The Energy and Mass Balance in the Closed Circulation Solar Still -- Operation Principle of the Closed Circulation Solar Still -- Description of the Experimental Unit -- Results and Discussion -- System Operating Under the Practical Weather -- Heat and Mass Transfer Analysis of the System -- Conclusions and Discussions -- Tandem Multieffect Isothermal Heating Solar Desalination System Based on the Humidification -- Dehumidification Processes -- Description of the Experimental Setup and the Working Principle -- Results and Discussion -- Conclusions -- Other Typical Air Humidification -- Dehumidification Solar Desalination Systems -- Tower Type Air Humidification -- Dehumidification Solar Distiller -- Humidification -- Dehumidification Solar Desalination System With Falling Film Evaporation -- Experiment of the System -- References -- Solar Desalination System Combined With Conventional Technologies -- Multistage Flash Solar Desalination System -- The Flash Principle and Technology -- Solar Desalination With Multistage Flash Processes -- Multieffect Solar Distillation System -- The Principle of Multieffect Distillation -- The Classification of the Multieffect Distillation Technological Process -- The Classification of Multieffect Distillation Equipment -- The Temperature Difference Between the Effects and the Factor Influencing Effect Number -- Process Conditions -- The Advantages and Disadvantages of Multieffect Distillation -- The Experimental Operation of a Multieffect Solar Distillation System -- Solar Vapor Compression Desalination System -- Compression Distillation Principle -- Compression Distillation Processes -- Main Operation Modes of Compression Distillation -- Advantages and Disadvantages of Compression Distillation -- Solar Compression Distillation Experiments -- Desalination Using the Partial Pressure Difference Between Freshwater and Seawater -- Horizontal Tube Falling Film Evaporation and Multieffect Recover Solar Desalination System -- Experiment Device and Operation Principle -- Experimental Results and Analysis -- System Operating Under Actual Weather -- Conclusions -- Low-Temperature Multieffect Desalination System Together With Solar Pond -- Reverse Osmosis Desalination System Driven by Solar Photovoltaic Panel -- Reverse Osmosis Desalination System Driven by Solar PV/T Device -- Reverse Osmosis Desalination System Driven by Solar Power Cycle System -- Large-Scale Solar Desalination by Combination With Concentrated Solar Power: Concept and Analysis -- References -- Absorption and Adsorption Solar Desalination System -- Features and Performance of Absorption and Adsorption Working Substance -- Solar Absorption Desalination System -- The Solar Absorption System Integrated With Industrial Seawater Desalination -- Single-Effect Solar Absorption Desalination System -- Multiple-Effect Solar Absorption Seawater Desalination System -- Practical Test and Evaluation of a Multiple-Effect Solar Absorption Seawater Desalination System -- Structure of Experimental Facilities -- Working Principles of Experimental Facilities -- Results and Analysis of the Experiment -- Simulation Calculation During the Heating of Solar Collector -- Adsorption Solar Seawater Desalination System -- Solar Absorption System Combined With Industrial Seawater Desalination Technology -- Single-Effect Solar Adsorption Desalination System -- Multiple-Effect Solar Adsorption Desalination System -- References -- Solar Concentrating Directly to Drive Desalination Technologies -- Introduction -- Challenges in Solar Desalination Technology -- A New Way to Solve These Problems -- Concentrated Light-Driven Solar Desalination System -- Solar Desalination Systems Directly Driven by Dish Concentrator -- The Solar Desalination System Directly Driven by Linear Fresnel Lens Concentrator -- The Solar Desalination System Directly Driven by Tower Concentrator -- Floating Solar Desalination Film -- The Enhanced Methods of Concentrating Direct Heating Seawater for Evaporation -- General Rules of Sunlight Transmission in Seawater -- Adding Black Particles as Absorbers in Water -- Absorption Enhancement by Colored Water -- Adding the Black Columns or Plates in Water as the Receivers -- References -- The Benefit Evaluation and Material Selecting -- The Economic Feasibility of Solar Desalination System -- The Economic Evaluation Method of Solar Desalination System -- Timeliness of Funds -- Economic Analysis of an Installed Solar Desalination System -- Case Calculation of Two Actual Systems -- Economic Analysis of the Solar Desalination System Under Site Selection State -- System Scale Influence on the Fresh Water Cost -- Multiple-Factor Analysis of the Fresh Water Cost -- The Material Selecting of Solar Desalination System -- Corrosion of Metals Caused by Seawater -- The Influence Factors of Seawater Corroding Metallic Materials -- Heat Conductivity Influence on the Material Selection -- Other Performance of Metals' Influence on Material Selection -- References. 5.7. 5.8. 5.8.1. 5.8.2. 5.8.3. 5.8.4. 5.8.5. 5.9. 5.9.1. 5.9.2. 5.9.3. 5.9.4. 5.9.5. 5.9.6. 5.10. 5.10.1. 5.10.2. 5.10.3. 5.10.4. 5.10.5. 5.10.6. 5.10.7. 5.11. 5.11.1. 5.11.2. 5.11.3. 5.12. 5.13. 5.14. 5.14.1. 5.14.2. 5.15. 5.15.1. 5.15.2. 5.15.3. 5.15.4. 5.15.5. 5.16. 5.17. 5.17.1. 5.17.2. 5.17.3. 5.17.4. 5.18. 5.18.1. 5.18.2. 5.18.3. ch. 6 6.1. 6.2. 6.2.1. 6.2.2. 6.3. 6.3.1. 6.3.2. 6.3.3. 6.4. 6.4.1. 6.4.2. 6.4.3. 6.4.4. 6.4.5. 6.5. 6.6. 6.7. 6.8. 6.9. 6.9.1. 6.9.2. 6.9.3. 6.9.4. 6.9.5. 6.9.6. 6.9.7. 6.10. 6.10.1. 6.10.2. 6.10.3. 6.11. 6.11.1. 6.11.2. 6.11.3. ch. 7 7.1. 7.1.1. 7.1.2. 7.2. 7.2.1. 7.2.2. 7.2.3. 7.2.4. 7.2.5. 7.2.6. 7.2.7. 7.3. 7.3.1. 7.3.2. 7.3.3. 7.3.4. 7.3.5. 7.4. 7.5. 7.5.1. 7.5.2. 7.5.3. 7.5.4. 7.6. 7.7. 7.8. 7.9. 7.10. ch. 8 8.1. 8.2. 8.3. 8.3.1. 8.3.2. 8.4. 8.4.1. 8.4.2. 8.4.3. 8.4.4. 8.5. 8.6. 8.6.1. 8.6.2. ch. 9 9.1. 9.1.1. 9.1.2. 9.2. 9.2.1. 9.2.2. 9.2.3. 9.3. 9.4. 9.4.1. 9.4.2. 9.4.3. 9.4.4. ch. 10 10.1. 10.2. 10.2.1. 10.2.2. 10.2.3. 10.2.4. 10.2.5. 10.2.6. 10.3. 10.3.1. 10.3.2. 10.3.3. 10.3.4.
9780128054116 (pbk.)
2017446599
Saline water conversion.
TD479 / .Z54 2017
628.16725 / Zh So