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Biblioteca

MARC Lista (tabellare)
Environment, ecology, and exergy [[electronic resource] ] : enhanced approaches to environmental and ecological management / / [editor], Marc A. Rosen
Environment, ecology, and exergy [[electronic resource] ] : enhanced approaches to environmental and ecological management / / [editor], Marc A. Rosen
Autore Rosen Marc (Marc A.)
Pubbl/distr/stampa Hauppauge, N.Y., : Nova Science Publisher's, Inc., 2012
Descrizione fisica 1 online resource (395 p.)
Disciplina 333.7
Altri autori (Persone) RosenMarc (Marc A.)
Collana Environmental science, engineering and technology
Soggetto topico Environmental management
Environmental management - Methodology
Ecosystem management
Exergy
ISBN 1-62081-741-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto pt. 1. Introduction and background -- pt. 2. Concepts and methods -- pt. 3. Applications -- pt. 4. Case studies.
Record Nr. UNINA-9910787664203321
Rosen Marc (Marc A.)  
Hauppauge, N.Y., : Nova Science Publisher's, Inc., 2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Environment, ecology, and exergy [[electronic resource] ] : enhanced approaches to environmental and ecological management / / [editor], Marc A. Rosen
Environment, ecology, and exergy [[electronic resource] ] : enhanced approaches to environmental and ecological management / / [editor], Marc A. Rosen
Autore Rosen Marc (Marc A.)
Pubbl/distr/stampa Hauppauge, N.Y., : Nova Science Publisher's, Inc., 2012
Descrizione fisica 1 online resource (395 p.)
Disciplina 333.7
Altri autori (Persone) RosenMarc (Marc A.)
Collana Environmental science, engineering and technology
Soggetto topico Environmental management
Environmental management - Methodology
Ecosystem management
Exergy
ISBN 1-62081-741-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto pt. 1. Introduction and background -- pt. 2. Concepts and methods -- pt. 3. Applications -- pt. 4. Case studies.
Record Nr. UNINA-9910817677203321
Rosen Marc (Marc A.)  
Hauppauge, N.Y., : Nova Science Publisher's, Inc., 2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Environment, ecology, and exergy [[electronic resource] ] : enhanced approaches to environmental and ecological management / / [editor], Marc A. Rosen
Environment, ecology, and exergy [[electronic resource] ] : enhanced approaches to environmental and ecological management / / [editor], Marc A. Rosen
Pubbl/distr/stampa Hauppauge, N.Y., : Nova Science Publisher's, Inc., 2012
Descrizione fisica 1 online resource (395 p.)
Disciplina 333.7
Altri autori (Persone) RosenMarc (Marc A.)
Collana Environmental science, engineering and technology
Soggetto topico Environmental management
Environmental management - Methodology
Ecosystem management
Exergy
Soggetto genere / forma Electronic books.
ISBN 1-62081-741-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto pt. 1. Introduction and background -- pt. 2. Concepts and methods -- pt. 3. Applications -- pt. 4. Case studies.
Record Nr. UNINA-9910463341203321
Hauppauge, N.Y., : Nova Science Publisher's, Inc., 2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Exergy [[electronic resource] ] : energy, environment and sustainable development / / Ibrahim Dincer, Marc Rosen
Exergy [[electronic resource] ] : energy, environment and sustainable development / / Ibrahim Dincer, Marc Rosen
Autore Dinçer İbrahim <1964->
Edizione [2nd ed.]
Pubbl/distr/stampa Oxford, : Elsevier Science, 2013
Descrizione fisica 1 online resource (552 pages)
Disciplina 531.6
621.042
Altri autori (Persone) RosenMarc (Marc A.)
Soggetto topico Exergy
Energy development
Energy conservation
Soggetto genere / forma Electronic books.
ISBN 1-283-74041-9
0-08-097090-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Thermodynamic fundamentals -- Exergy and energy analyses -- Chemical exergy -- Exergy, environment, and sustainable development -- Applications of exergy in industry -- Exergy analysis of psychrometric processes -- Exergy analysis of heat pump systems -- Exergy analysis of absorption cooling systems -- Exergy analysis of thermal energy storage systems -- Exergy analysis of drying processes and systems -- Exergy analysis of renewable energy systems -- Exergy analysis of steam power plants -- Exergy analysis of cogeneration and district energy systems -- Exergy analysis of integrated trigeneration and multigeneration systems -- Exergy analysis of cryogenic and liquefaction systems -- Exergy analysis of crude oil distillation systems -- Exergy analysis of hydrogen production systems -- Exergy analysis of fuel cell systems -- Exergy analysis of aircraft flight systems -- Exergoeconomic analysis of thermal systems -- Exergy analysis of countries, regions, and economic sectors -- Exergetic life cycle assessment -- Exergy and industrial ecology -- Exergy and multiobjective optimization -- Exergy in policy development and education -- Closing remarks and future expectations -- Appendices.
Record Nr. UNINA-9910462131603321
Dinçer İbrahim <1964->  
Oxford, : Elsevier Science, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Exergy [[electronic resource] ] : energy, environment and sustainable development / / Ibrahim Dincer, Marc Rosen
Exergy [[electronic resource] ] : energy, environment and sustainable development / / Ibrahim Dincer, Marc Rosen
Autore Dinçer İbrahim <1964->
Edizione [2nd ed.]
Pubbl/distr/stampa Oxford, : Elsevier Science, 2013
Descrizione fisica 1 online resource (552 pages)
Disciplina 531.6
621.042
Altri autori (Persone) RosenMarc (Marc A.)
Soggetto topico Exergy
Energy development
Energy conservation
ISBN 1-283-74041-9
0-08-097090-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Thermodynamic fundamentals -- Exergy and energy analyses -- Chemical exergy -- Exergy, environment, and sustainable development -- Applications of exergy in industry -- Exergy analysis of psychrometric processes -- Exergy analysis of heat pump systems -- Exergy analysis of absorption cooling systems -- Exergy analysis of thermal energy storage systems -- Exergy analysis of drying processes and systems -- Exergy analysis of renewable energy systems -- Exergy analysis of steam power plants -- Exergy analysis of cogeneration and district energy systems -- Exergy analysis of integrated trigeneration and multigeneration systems -- Exergy analysis of cryogenic and liquefaction systems -- Exergy analysis of crude oil distillation systems -- Exergy analysis of hydrogen production systems -- Exergy analysis of fuel cell systems -- Exergy analysis of aircraft flight systems -- Exergoeconomic analysis of thermal systems -- Exergy analysis of countries, regions, and economic sectors -- Exergetic life cycle assessment -- Exergy and industrial ecology -- Exergy and multiobjective optimization -- Exergy in policy development and education -- Closing remarks and future expectations -- Appendices.
Record Nr. UNINA-9910785914103321
Dinçer İbrahim <1964->  
Oxford, : Elsevier Science, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Exergy : energy, environment and sustainable development / / Ibrahim Dincer, Marc Rosen
Exergy : energy, environment and sustainable development / / Ibrahim Dincer, Marc Rosen
Autore Dinçer İbrahim <1964->
Edizione [2nd ed.]
Pubbl/distr/stampa Oxford, : Elsevier Science, 2013
Descrizione fisica 1 online resource (552 pages)
Disciplina 531.6
621.042
Altri autori (Persone) RosenMarc (Marc A.)
Soggetto topico Exergy
Energy development
Energy conservation
ISBN 1-283-74041-9
0-08-097090-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Thermodynamic fundamentals -- Exergy and energy analyses -- Chemical exergy -- Exergy, environment, and sustainable development -- Applications of exergy in industry -- Exergy analysis of psychrometric processes -- Exergy analysis of heat pump systems -- Exergy analysis of absorption cooling systems -- Exergy analysis of thermal energy storage systems -- Exergy analysis of drying processes and systems -- Exergy analysis of renewable energy systems -- Exergy analysis of steam power plants -- Exergy analysis of cogeneration and district energy systems -- Exergy analysis of integrated trigeneration and multigeneration systems -- Exergy analysis of cryogenic and liquefaction systems -- Exergy analysis of crude oil distillation systems -- Exergy analysis of hydrogen production systems -- Exergy analysis of fuel cell systems -- Exergy analysis of aircraft flight systems -- Exergoeconomic analysis of thermal systems -- Exergy analysis of countries, regions, and economic sectors -- Exergetic life cycle assessment -- Exergy and industrial ecology -- Exergy and multiobjective optimization -- Exergy in policy development and education -- Closing remarks and future expectations -- Appendices.
Record Nr. UNINA-9910815299603321
Dinçer İbrahim <1964->  
Oxford, : Elsevier Science, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Optimization of energy systems / / Ibrahim Dincer, Marc A Rosen, Pouria Ahmadi
Optimization of energy systems / / Ibrahim Dincer, Marc A Rosen, Pouria Ahmadi
Autore Dinçer İbrahim <1964->
Pubbl/distr/stampa Chichester, West Sussex, United Kingdom : , : Wiley, , 2017
Descrizione fisica 1 online resource (472 pages)
Disciplina 621.042
Soggetto topico Power (Mechanics)
Power resources
Energy conservation
Sustainable engineering
ISBN 1-118-89449-9
1-118-89450-2
1-118-89448-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910271040003321
Dinçer İbrahim <1964->  
Chichester, West Sussex, United Kingdom : , : Wiley, , 2017
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Optimization of energy systems / / Ibrahim Dincer, Marc A Rosen, Pouria Ahmadi
Optimization of energy systems / / Ibrahim Dincer, Marc A Rosen, Pouria Ahmadi
Autore Dinçer İbrahim <1964->
Pubbl/distr/stampa Chichester, West Sussex, United Kingdom : , : Wiley, , 2017
Descrizione fisica 1 online resource (472 pages)
Disciplina 621.042
Soggetto topico Power (Mechanics)
Power resources
Energy conservation
Sustainable engineering
ISBN 1-118-89449-9
1-118-89450-2
1-118-89448-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910825020903321
Dinçer İbrahim <1964->  
Chichester, West Sussex, United Kingdom : , : Wiley, , 2017
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Thermal energy storage : systems and applications / / Ibrahim Dincer, Marc A. Rosen
Thermal energy storage : systems and applications / / Ibrahim Dincer, Marc A. Rosen
Autore Dinçer İbrahim <1964->
Edizione [Third edition.]
Pubbl/distr/stampa Hoboken, New Jersey ; ; Chichester, England : , : John Wiley & Sons, Inc., , [2021]
Descrizione fisica 1 online resource (674 pages)
Disciplina 621.4028
Soggetto topico Heat storage
Soggetto genere / forma Electronic books.
ISBN 1-119-71314-5
1-119-71317-X
1-119-71316-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Acknowledgments -- Chapter 1 Basic Introductory Thermal Aspects -- 1.1 Introduction -- 1.2 Systems of Units -- 1.3 Fundamental Properties and Quantities -- 1.3.1 Mass, Time, Length, and Force -- 1.3.2 Pressure -- 1.3.3 Temperature -- 1.3.4 Specific Volume and Density -- 1.3.5 Mass and Volumetric Flow Rates -- 1.4 General Aspects of Thermodynamics -- 1.4.1 Thermodynamic Systems -- 1.4.2 Process -- 1.4.3 Cycle -- 1.4.4 Thermodynamic Property -- 1.4.5 Sensible and Latent Heats -- 1.4.6 Latent Heat of Fusion -- 1.4.7 Vapor -- 1.4.8 Thermodynamic Tables -- 1.4.9 State and Change of State -- 1.4.10 Specific Internal Energy -- 1.4.11 Specific Enthalpy -- 1.4.12 Specific Entropy -- 1.4.13 Pure Substance -- 1.4.14 Ideal Gases -- 1.4.15 Energy Transfer -- 1.4.16 Heat -- 1.4.17 Work -- 1.4.18 The First Law of Thermodynamics -- 1.4.19 The Second Law of Thermodynamics -- 1.4.20 Reversibility and Irreversibility -- 1.4.21 Exergy -- 1.5 General Aspects of Fluid Flow -- 1.5.1 Classification of Fluid Flows -- 1.5.2 Viscosity -- 1.5.3 Equations of Flow -- 1.5.4 Boundary Layer -- 1.6 General Aspects of Heat Transfer -- 1.6.1 Conduction Heat Transfer -- 1.6.2 Convection Heat Transfer -- 1.6.3 Radiation Heat Transfer -- 1.6.4 Thermal Resistance -- 1.6.5 The Composite Wall -- 1.6.6 The Cylinder -- 1.6.7 The Sphere -- 1.6.8 Conduction with Heat Generation -- 1.6.9 Natural Convection -- 1.6.10 Forced Convection -- 1.7 Concluding Remarks -- Nomenclature -- References -- Study Questions/Problems -- Chapter 2 Energy Storage Systems -- 2.1 Introduction -- 2.2 Energy Demand -- 2.3 Energy Storage Basics -- 2.4 Energy Storage Methods -- 2.4.1 Mechanical Energy Storage -- 2.4.2 Chemical Energy Storage -- 2.4.3 Electrochemical Energy Storage -- 2.4.4 Biological Storage -- 2.4.5 Magnetic Storage.
2.4.6 Thermal Energy Storage (TES) -- 2.5 Hydrogen for Energy Storage -- 2.5.1 Storage Characteristics of Hydrogen -- 2.5.2 Hydrogen Storage Technologies -- 2.5.3 Hydrogen Production -- 2.6 Comparison of ES Technologies -- 2.7 Energy Storage and Environmental Impact -- 2.7.1 Energy and Environment -- 2.7.2 Major Environmental Problems -- 2.8 Environmental Impact and Energy Storage Systems and Applications -- 2.9 Potential Solutions to Environmental Problems -- 2.9.1 General Solutions -- 2.9.2 TES-Related Solutions -- 2.10 Sustainable Development -- 2.10.1 Conceptual Issues -- 2.10.2 The Brundtland Commission's Definition -- 2.10.3 Environmental Limits -- 2.10.4 Global, Regional, and Local Sustainability -- 2.10.5 Environmental, Social, and Economic Components of Sustainability -- 2.10.6 Energy and Sustainable Development -- 2.10.7 Environment and Sustainable Development -- 2.10.8 Achieving Sustainable Development in Larger Countries -- 2.10.9 Important Factors for Sustainable Development -- 2.10.10 Sustainable Development Goals -- 2.11 Concluding Remarks -- References -- Study Questions/Problems -- Chapter 3 Thermal Energy Storage Methods -- 3.1 Introduction -- 3.2 Thermal Energy -- 3.3 Thermal Energy Storage -- 3.3.1 Basic Principle of TES -- 3.3.2 Benefits of TES -- 3.3.3 Criteria for TES Evaluation -- 3.3.4 TES Market Considerations -- 3.3.5 TES Heating and Cooling Applications -- 3.3.6 TES Operating Characteristics -- 3.3.7 ASHRAE TES Standards -- 3.4 Solar Energy and TES -- 3.4.1 TES Challenges for Solar Applications -- 3.4.2 TES Types and Solar Energy Systems -- 3.4.3 Storage Durations and Solar Applications -- 3.4.4 Building Applications of TES and Solar Energy -- 3.4.5 Design Considerations for Solar Energy-Based TES -- 3.5 TES Methods -- 3.6 Sensible TES -- 3.6.1 Thermally-Stratified TES Tanks -- 3.6.2 Concrete TES.
3.6.3 Rock and Water/Rock TES -- 3.6.4 Aquifer Thermal Energy Storage (ATES) -- 3.6.5 Solar Ponds -- 3.6.6 Evacuated Solar Collector TES -- 3.7 Latent TES -- 3.7.1 Operational Aspects of Latent TES -- 3.7.2 Phase Change Materials (PCMs) -- 3.8 Cold TES (CTES) -- 3.8.1 Working Principle -- 3.8.2 Operational Loading of CTES -- 3.8.3 Design Considerations -- 3.8.4 CTES Sizing Strategies -- 3.8.5 Load Control and Monitoring in CTES -- 3.8.6 CTES Storage Media Selection and Characteristics -- 3.8.7 Storage Tank Types for CTES -- 3.8.8 Chilled-Water CTES -- 3.8.9 Ice CTES -- 3.8.10 Ice Forming -- 3.8.11 Ice Thickness Controls -- 3.8.12 Technical and Design Aspects of CTES -- 3.8.13 Selection Aspects of CTES -- 3.8.14 Cold Air Distribution in CTES -- 3.8.15 Potential Benefits of CTES -- 3.8.16 Electric Utilities and CTES -- 3.9 Seasonal TES -- 3.9.1 Seasonal TES for Heating Capacity -- 3.9.2 Seasonal TES for Cooling Capacity -- 3.9.3 Illustration -- 3.10 Concluding Remarks -- References -- Study Questions/Problems -- Chapter 4 Energy and Exergy Analyses -- 4.1 Introduction -- 4.2 Theory: Energy and Exergy Analyses -- 4.2.1 Motivation for Energy and Exergy Analyses -- 4.2.2 Conceptual Balance Equations for Mass, Energy, and Entropy -- 4.2.3 Detailed Balance Equations for Mass, Energy, and Entropy -- 4.2.4 Basic Quantities for Exergy Analysis -- 4.2.5 Detailed Exergy Balance -- 4.2.6 The Reference Environment -- 4.2.7 Efficiencies -- 4.2.8 Properties for Energy and Exergy Analyses -- 4.2.9 Implications of Results of Exergy Analyses -- 4.2.10 Steps for Energy and Exergy Analyses -- 4.3 Thermodynamic Considerations in TES Evaluation -- 4.3.1 Determining Important Analysis Quantities -- 4.3.2 Obtaining Appropriate Measures of Efficiency -- 4.3.3 Pinpointing Losses -- 4.3.4 Assessing the Effects of Stratification -- 4.3.5 Accounting for Time Duration of Storage.
4.3.6 Accounting for Variations in Reference-Environment Temperature -- 4.3.7 Closure -- 4.4 Exergy Evaluation of a Closed TES System -- 4.4.1 Description of the Case Considered -- 4.4.2 Analysis of the Overall Process -- 4.4.3 Analysis of Subprocesses -- 4.4.4 Alternative Formulations of Subprocess Efficiencies -- 4.4.5 Relations Between Performance of Subprocesses and Overall Process -- 4.4.6 Example -- 4.4.7 Closure -- 4.5 Appropriate Efficiency Measures for Closed TES Systems -- 4.5.1 TES Model Considered -- 4.5.2 Energy and Exergy Balances -- 4.5.3 Energy and Exergy Efficiencies -- 4.5.4 Overall Efficiencies -- 4.5.5 Charging-Period Efficiencies -- 4.5.6 Storing-Period Efficiencies -- 4.5.7 Discharging-Period Efficiencies -- 4.5.8 Summary of Efficiency Definitions -- 4.5.9 Illustrative Example -- 4.5.10 Closure -- 4.6 Importance of Temperature in Performance Evaluations for Sensible TES Systems -- 4.6.1 Energy, Entropy, and Exergy Balances for the TES System -- 4.6.2 TES System Model Considered -- 4.6.3 Analysis -- 4.6.4 Comparison of Energy and Exergy Efficiencies -- 4.6.5 Illustration -- 4.6.6 Closure -- 4.7 Exergy Analysis of Aquifer TES Systems -- 4.7.1 ATES Model -- 4.7.2 Energy and Exergy Analyses -- 4.7.3 Effect of a Threshold Temperature -- 4.7.4 Case Study -- 4.7.5 Closure -- 4.8 Exergy Analysis of Thermally Stratified Storages -- 4.8.1 General Stratified TES Energy and Exergy Expressions -- 4.8.2 Temperature-Distribution Models and Relevant Expressions -- 4.8.3 Discussion and Comparison of Models -- 4.8.4 Illustrative Example: The Exergy-Based Advantage of Stratification -- 4.8.5 Illustrative Example: Evaluating Stratified TES Energy and Exergy -- 4.8.6 Increasing TES Exergy Storage Capacity Using Stratification -- 4.8.7 Illustrative Example: Increasing TES Exergy with Stratification -- 4.8.8 Closure.
4.9 Energy and Exergy Analyses of Cold TES Systems -- 4.9.1 Energy Balances -- 4.9.2 Exergy Balances -- 4.9.3 Energy and Exergy Efficiencies -- 4.9.4 Illustrative Example -- 4.9.5 Case Study: Thermodynamic Performance of a Commercial Ice TES System -- 4.9.6 Case Study: Energy and Exergy Analyses of An Ice-on-Coil Thermal Energy Storage System -- 4.9.7 Closure -- 4.10 Exergy-Based Optimal Discharge Periods for Closed TES Systems -- 4.10.1 Analysis Description and Assumptions -- 4.10.2 Evaluation of Storage-Fluid Temperature During Discharge -- 4.10.3 Discharge Efficiencies -- 4.10.4 Exergy-Based Optimum Discharge Period -- 4.10.5 Illustrative Example -- 4.10.6 Closure -- 4.11 Exergy Analysis of Solar Ponds -- 4.11.1 Experimental Solar Pond -- 4.11.2 Data Acquisition and Analysis -- 4.11.3 Energy and Exergy Assessments -- 4.11.4 Potential Improvements -- 4.12 Concluding Remarks -- Nomenclature -- References -- Study Questions/Problems -- Appendix: Glossary of Selected Exergy-Related Terminology -- Chapter 5 Numerical Modeling and Simulation -- 5.1 Introduction -- 5.2 Approaches and Methods -- 5.3 Selected Applications -- 5.4 Numerical Modeling, Simulation, and Analysis of Sensible TES Systems -- 5.4.1 Modeling -- 5.4.2 Heat Transfer and Fluid Flow Analysis -- 5.4.3 Simulation -- 5.4.4 Thermodynamic Analysis -- 5.5 Case Studies for Sensible TES Systems -- 5.5.1 Case Study 1: Natural Convection in a Hot Water Storage Tank -- 5.5.2 Case Study 2: Forced Convection in a Stratified Hot Water Tank -- 5.5.3 General Discussion of Sensible TES Case Studies -- 5.6 Numerical Modeling, Simulation, and Analysis of Latent TES Systems -- 5.6.1 Modeling -- 5.6.2 Heat Transfer and Fluid Flow Analysis -- 5.6.3 Simulation -- 5.6.4 Thermodynamic Analysis -- 5.7 Case Studies for Latent TES Systems.
5.7.1 Case Study 1: Two-Dimensional Study of the Melting Process in an Infinite Cylindrical Tube.
Record Nr. UNINA-9910555265903321
Dinçer İbrahim <1964->  
Hoboken, New Jersey ; ; Chichester, England : , : John Wiley & Sons, Inc., , [2021]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Thermal energy storage : systems and applications / / Ibrahim Dincer, Marc A. Rosen
Thermal energy storage : systems and applications / / Ibrahim Dincer, Marc A. Rosen
Autore Dinçer İbrahim <1964->
Edizione [Third edition.]
Pubbl/distr/stampa Hoboken, New Jersey ; ; Chichester, England : , : John Wiley & Sons, Inc., , [2021]
Descrizione fisica 1 online resource (674 pages)
Disciplina 621.4028
Soggetto topico Heat storage
ISBN 1-119-71314-5
1-119-71317-X
1-119-71316-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Acknowledgments -- Chapter 1 Basic Introductory Thermal Aspects -- 1.1 Introduction -- 1.2 Systems of Units -- 1.3 Fundamental Properties and Quantities -- 1.3.1 Mass, Time, Length, and Force -- 1.3.2 Pressure -- 1.3.3 Temperature -- 1.3.4 Specific Volume and Density -- 1.3.5 Mass and Volumetric Flow Rates -- 1.4 General Aspects of Thermodynamics -- 1.4.1 Thermodynamic Systems -- 1.4.2 Process -- 1.4.3 Cycle -- 1.4.4 Thermodynamic Property -- 1.4.5 Sensible and Latent Heats -- 1.4.6 Latent Heat of Fusion -- 1.4.7 Vapor -- 1.4.8 Thermodynamic Tables -- 1.4.9 State and Change of State -- 1.4.10 Specific Internal Energy -- 1.4.11 Specific Enthalpy -- 1.4.12 Specific Entropy -- 1.4.13 Pure Substance -- 1.4.14 Ideal Gases -- 1.4.15 Energy Transfer -- 1.4.16 Heat -- 1.4.17 Work -- 1.4.18 The First Law of Thermodynamics -- 1.4.19 The Second Law of Thermodynamics -- 1.4.20 Reversibility and Irreversibility -- 1.4.21 Exergy -- 1.5 General Aspects of Fluid Flow -- 1.5.1 Classification of Fluid Flows -- 1.5.2 Viscosity -- 1.5.3 Equations of Flow -- 1.5.4 Boundary Layer -- 1.6 General Aspects of Heat Transfer -- 1.6.1 Conduction Heat Transfer -- 1.6.2 Convection Heat Transfer -- 1.6.3 Radiation Heat Transfer -- 1.6.4 Thermal Resistance -- 1.6.5 The Composite Wall -- 1.6.6 The Cylinder -- 1.6.7 The Sphere -- 1.6.8 Conduction with Heat Generation -- 1.6.9 Natural Convection -- 1.6.10 Forced Convection -- 1.7 Concluding Remarks -- Nomenclature -- References -- Study Questions/Problems -- Chapter 2 Energy Storage Systems -- 2.1 Introduction -- 2.2 Energy Demand -- 2.3 Energy Storage Basics -- 2.4 Energy Storage Methods -- 2.4.1 Mechanical Energy Storage -- 2.4.2 Chemical Energy Storage -- 2.4.3 Electrochemical Energy Storage -- 2.4.4 Biological Storage -- 2.4.5 Magnetic Storage.
2.4.6 Thermal Energy Storage (TES) -- 2.5 Hydrogen for Energy Storage -- 2.5.1 Storage Characteristics of Hydrogen -- 2.5.2 Hydrogen Storage Technologies -- 2.5.3 Hydrogen Production -- 2.6 Comparison of ES Technologies -- 2.7 Energy Storage and Environmental Impact -- 2.7.1 Energy and Environment -- 2.7.2 Major Environmental Problems -- 2.8 Environmental Impact and Energy Storage Systems and Applications -- 2.9 Potential Solutions to Environmental Problems -- 2.9.1 General Solutions -- 2.9.2 TES-Related Solutions -- 2.10 Sustainable Development -- 2.10.1 Conceptual Issues -- 2.10.2 The Brundtland Commission's Definition -- 2.10.3 Environmental Limits -- 2.10.4 Global, Regional, and Local Sustainability -- 2.10.5 Environmental, Social, and Economic Components of Sustainability -- 2.10.6 Energy and Sustainable Development -- 2.10.7 Environment and Sustainable Development -- 2.10.8 Achieving Sustainable Development in Larger Countries -- 2.10.9 Important Factors for Sustainable Development -- 2.10.10 Sustainable Development Goals -- 2.11 Concluding Remarks -- References -- Study Questions/Problems -- Chapter 3 Thermal Energy Storage Methods -- 3.1 Introduction -- 3.2 Thermal Energy -- 3.3 Thermal Energy Storage -- 3.3.1 Basic Principle of TES -- 3.3.2 Benefits of TES -- 3.3.3 Criteria for TES Evaluation -- 3.3.4 TES Market Considerations -- 3.3.5 TES Heating and Cooling Applications -- 3.3.6 TES Operating Characteristics -- 3.3.7 ASHRAE TES Standards -- 3.4 Solar Energy and TES -- 3.4.1 TES Challenges for Solar Applications -- 3.4.2 TES Types and Solar Energy Systems -- 3.4.3 Storage Durations and Solar Applications -- 3.4.4 Building Applications of TES and Solar Energy -- 3.4.5 Design Considerations for Solar Energy-Based TES -- 3.5 TES Methods -- 3.6 Sensible TES -- 3.6.1 Thermally-Stratified TES Tanks -- 3.6.2 Concrete TES.
3.6.3 Rock and Water/Rock TES -- 3.6.4 Aquifer Thermal Energy Storage (ATES) -- 3.6.5 Solar Ponds -- 3.6.6 Evacuated Solar Collector TES -- 3.7 Latent TES -- 3.7.1 Operational Aspects of Latent TES -- 3.7.2 Phase Change Materials (PCMs) -- 3.8 Cold TES (CTES) -- 3.8.1 Working Principle -- 3.8.2 Operational Loading of CTES -- 3.8.3 Design Considerations -- 3.8.4 CTES Sizing Strategies -- 3.8.5 Load Control and Monitoring in CTES -- 3.8.6 CTES Storage Media Selection and Characteristics -- 3.8.7 Storage Tank Types for CTES -- 3.8.8 Chilled-Water CTES -- 3.8.9 Ice CTES -- 3.8.10 Ice Forming -- 3.8.11 Ice Thickness Controls -- 3.8.12 Technical and Design Aspects of CTES -- 3.8.13 Selection Aspects of CTES -- 3.8.14 Cold Air Distribution in CTES -- 3.8.15 Potential Benefits of CTES -- 3.8.16 Electric Utilities and CTES -- 3.9 Seasonal TES -- 3.9.1 Seasonal TES for Heating Capacity -- 3.9.2 Seasonal TES for Cooling Capacity -- 3.9.3 Illustration -- 3.10 Concluding Remarks -- References -- Study Questions/Problems -- Chapter 4 Energy and Exergy Analyses -- 4.1 Introduction -- 4.2 Theory: Energy and Exergy Analyses -- 4.2.1 Motivation for Energy and Exergy Analyses -- 4.2.2 Conceptual Balance Equations for Mass, Energy, and Entropy -- 4.2.3 Detailed Balance Equations for Mass, Energy, and Entropy -- 4.2.4 Basic Quantities for Exergy Analysis -- 4.2.5 Detailed Exergy Balance -- 4.2.6 The Reference Environment -- 4.2.7 Efficiencies -- 4.2.8 Properties for Energy and Exergy Analyses -- 4.2.9 Implications of Results of Exergy Analyses -- 4.2.10 Steps for Energy and Exergy Analyses -- 4.3 Thermodynamic Considerations in TES Evaluation -- 4.3.1 Determining Important Analysis Quantities -- 4.3.2 Obtaining Appropriate Measures of Efficiency -- 4.3.3 Pinpointing Losses -- 4.3.4 Assessing the Effects of Stratification -- 4.3.5 Accounting for Time Duration of Storage.
4.3.6 Accounting for Variations in Reference-Environment Temperature -- 4.3.7 Closure -- 4.4 Exergy Evaluation of a Closed TES System -- 4.4.1 Description of the Case Considered -- 4.4.2 Analysis of the Overall Process -- 4.4.3 Analysis of Subprocesses -- 4.4.4 Alternative Formulations of Subprocess Efficiencies -- 4.4.5 Relations Between Performance of Subprocesses and Overall Process -- 4.4.6 Example -- 4.4.7 Closure -- 4.5 Appropriate Efficiency Measures for Closed TES Systems -- 4.5.1 TES Model Considered -- 4.5.2 Energy and Exergy Balances -- 4.5.3 Energy and Exergy Efficiencies -- 4.5.4 Overall Efficiencies -- 4.5.5 Charging-Period Efficiencies -- 4.5.6 Storing-Period Efficiencies -- 4.5.7 Discharging-Period Efficiencies -- 4.5.8 Summary of Efficiency Definitions -- 4.5.9 Illustrative Example -- 4.5.10 Closure -- 4.6 Importance of Temperature in Performance Evaluations for Sensible TES Systems -- 4.6.1 Energy, Entropy, and Exergy Balances for the TES System -- 4.6.2 TES System Model Considered -- 4.6.3 Analysis -- 4.6.4 Comparison of Energy and Exergy Efficiencies -- 4.6.5 Illustration -- 4.6.6 Closure -- 4.7 Exergy Analysis of Aquifer TES Systems -- 4.7.1 ATES Model -- 4.7.2 Energy and Exergy Analyses -- 4.7.3 Effect of a Threshold Temperature -- 4.7.4 Case Study -- 4.7.5 Closure -- 4.8 Exergy Analysis of Thermally Stratified Storages -- 4.8.1 General Stratified TES Energy and Exergy Expressions -- 4.8.2 Temperature-Distribution Models and Relevant Expressions -- 4.8.3 Discussion and Comparison of Models -- 4.8.4 Illustrative Example: The Exergy-Based Advantage of Stratification -- 4.8.5 Illustrative Example: Evaluating Stratified TES Energy and Exergy -- 4.8.6 Increasing TES Exergy Storage Capacity Using Stratification -- 4.8.7 Illustrative Example: Increasing TES Exergy with Stratification -- 4.8.8 Closure.
4.9 Energy and Exergy Analyses of Cold TES Systems -- 4.9.1 Energy Balances -- 4.9.2 Exergy Balances -- 4.9.3 Energy and Exergy Efficiencies -- 4.9.4 Illustrative Example -- 4.9.5 Case Study: Thermodynamic Performance of a Commercial Ice TES System -- 4.9.6 Case Study: Energy and Exergy Analyses of An Ice-on-Coil Thermal Energy Storage System -- 4.9.7 Closure -- 4.10 Exergy-Based Optimal Discharge Periods for Closed TES Systems -- 4.10.1 Analysis Description and Assumptions -- 4.10.2 Evaluation of Storage-Fluid Temperature During Discharge -- 4.10.3 Discharge Efficiencies -- 4.10.4 Exergy-Based Optimum Discharge Period -- 4.10.5 Illustrative Example -- 4.10.6 Closure -- 4.11 Exergy Analysis of Solar Ponds -- 4.11.1 Experimental Solar Pond -- 4.11.2 Data Acquisition and Analysis -- 4.11.3 Energy and Exergy Assessments -- 4.11.4 Potential Improvements -- 4.12 Concluding Remarks -- Nomenclature -- References -- Study Questions/Problems -- Appendix: Glossary of Selected Exergy-Related Terminology -- Chapter 5 Numerical Modeling and Simulation -- 5.1 Introduction -- 5.2 Approaches and Methods -- 5.3 Selected Applications -- 5.4 Numerical Modeling, Simulation, and Analysis of Sensible TES Systems -- 5.4.1 Modeling -- 5.4.2 Heat Transfer and Fluid Flow Analysis -- 5.4.3 Simulation -- 5.4.4 Thermodynamic Analysis -- 5.5 Case Studies for Sensible TES Systems -- 5.5.1 Case Study 1: Natural Convection in a Hot Water Storage Tank -- 5.5.2 Case Study 2: Forced Convection in a Stratified Hot Water Tank -- 5.5.3 General Discussion of Sensible TES Case Studies -- 5.6 Numerical Modeling, Simulation, and Analysis of Latent TES Systems -- 5.6.1 Modeling -- 5.6.2 Heat Transfer and Fluid Flow Analysis -- 5.6.3 Simulation -- 5.6.4 Thermodynamic Analysis -- 5.7 Case Studies for Latent TES Systems.
5.7.1 Case Study 1: Two-Dimensional Study of the Melting Process in an Infinite Cylindrical Tube.
Record Nr. UNINA-9910829934803321
Dinçer İbrahim <1964->  
Hoboken, New Jersey ; ; Chichester, England : , : John Wiley & Sons, Inc., , [2021]
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