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Natural ventilation of buildings [[electronic resource] ] : theory, measurement and design / / David Etheridge
| Natural ventilation of buildings [[electronic resource] ] : theory, measurement and design / / David Etheridge |
| Autore | Etheridge David (David W.) |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2012 |
| Descrizione fisica | 1 online resource (456 p.) |
| Disciplina | 697.9/2 |
| Soggetto topico | Natural ventilation |
| ISBN |
1-283-28006-X
9786613280060 1-119-95177-1 1-119-95178-X |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Natural Ventilation of Buildings: THEORY, MEASUREMENT AND DESIGN; Contents; Preface; Acknowledgements; Principal Notation; 1 Introduction and Overview of Natural Ventilation Design; 1.1 Aims and Scope of the Book; 1.1.1 Aims; 1.1.2 Scope; 1.2 Natural Ventilation in Context; 1.2.1 Hierarchy of Ventilation Systems; 1.2.2 Advantages and Disadvantages of Natural Ventilation; 1.2.3 Differences between Natural and Mechanical Ventilation; 1.3 Overview of Design; 1.3.1 Overall Design Process; 1.3.2 Stage 1: Assessing Feasibility; 1.3.3 Stage 2: Choosing a Ventilation Strategy
1.3.4 Stage 3: Achieving the Ventilation Strategy1.3.5 Stage 4: Internal Air Motion and Related Phenomena; 1.3.6 Stage 5: Commissioning; 1.4 Notes on Sources; 1.4.1 Coverage of Recent and Past Developments; 1.4.2 Natural Ventilation and Safety; References; 2 Physical Processes in Natural Ventilation; 2.1 Introduction; 2.1.1 Fundamental Principles of Fluid Mechanics; 2.1.2 Numerical Analysis and CFD; 2.2 The Effect of Gravity on Ventilation Flows; 2.2.1 Navier-Stokes Equations; 2.2.2 Hydrostatic and Piezometric Pressures; 2.2.3 Envelope Flows; 2.2.4 Internal Air Motion 2.3 Types of Flow Encountered in Ventilation2.3.1 Reynolds Number; 2.3.2 Laminar Flow; 2.3.3 Transitional Flow; 2.3.4 Turbulent Flow; 2.4 Fluid Mechanics - Other Important Concepts and Equations; 2.4.1 A Fluid as a Continuum; 2.4.2 Transport Mechanisms; 2.4.3 Momentum Principle - Newton's Laws of Motion; 2.4.4 Momentum Equations for a Defined Body of Fluid and a Control Volume; 2.4.5 Hydrostatic Equation; 2.4.6 Steady Flow; 2.4.7 Mass Conservation for an Envelope; 2.4.8 Bernoulli's Equation; 2.4.9 Energy Equations for a System and a Fixed Control Volume 2.4.10 Loss Coefficient and Resistance Coefficient2.4.11 Still-air Discharge Coefficient and Resistance Coefficient; 2.4.12 Flow Separation; 2.4.13 Irrotational Flow; 2.5 Steady and Unsteady Ventilation; 2.6 Flow Through a Sudden Expansion; 2.6.1 Momentum and Continuity Equations; 2.6.2 Energy Equation; 2.6.3 Diffusion (Molecular and Turbulent); 2.7 Dimensional Analysis; 2.8 Heat Transfer between Air and Envelope; 2.9 Definitions Relating to Ventilation Rate; 2.9.1 Envelope Flows - Single Cell; 2.9.2 Envelope Flows - Multi-cell Buildings; 2.9.3 Measurement of Ventilation Rate 2.9.4 Effectiveness of Ventilation and Local Ventilation Rates2.10 Errors and Uncertainties; 2.11 Mathematical Models; 2.11.1 Envelope Flow Models (Chapters 4 and 5); 2.11.2 Zonal Models (Chapter 6); 2.11.3 Dynamic Thermal Models; 2.11.4 CFD; 2.12 Boundary Conditions; 2.12.1 Velocity; 2.12.2 Temperature; Bibliography; References; 3 Steady Flow Characteristics of Openings; 3.1 Introduction; 3.1.1 Still-air Discharge Coefficient; 3.1.2 Installation Effects; 3.2 Classification of Openings; 3.2.1 Shapes of Openings; 3.2.2 Sizes of Openings; 3.2.3 Reynolds Numbers Encountered in Practice 3.2.4 Types of Opening |
| Record Nr. | UNINA-9910141233703321 |
Etheridge David (David W.)
|
||
| Hoboken, N.J., : Wiley, 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Natural ventilation of buildings [[electronic resource] ] : theory, measurement and design / / David Etheridge
| Natural ventilation of buildings [[electronic resource] ] : theory, measurement and design / / David Etheridge |
| Autore | Etheridge David (David W.) |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2012 |
| Descrizione fisica | 1 online resource (456 p.) |
| Disciplina | 697.9/2 |
| Soggetto topico | Natural ventilation |
| ISBN |
1-283-28006-X
9786613280060 1-119-95177-1 1-119-95178-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Natural Ventilation of Buildings: THEORY, MEASUREMENT AND DESIGN; Contents; Preface; Acknowledgements; Principal Notation; 1 Introduction and Overview of Natural Ventilation Design; 1.1 Aims and Scope of the Book; 1.1.1 Aims; 1.1.2 Scope; 1.2 Natural Ventilation in Context; 1.2.1 Hierarchy of Ventilation Systems; 1.2.2 Advantages and Disadvantages of Natural Ventilation; 1.2.3 Differences between Natural and Mechanical Ventilation; 1.3 Overview of Design; 1.3.1 Overall Design Process; 1.3.2 Stage 1: Assessing Feasibility; 1.3.3 Stage 2: Choosing a Ventilation Strategy
1.3.4 Stage 3: Achieving the Ventilation Strategy1.3.5 Stage 4: Internal Air Motion and Related Phenomena; 1.3.6 Stage 5: Commissioning; 1.4 Notes on Sources; 1.4.1 Coverage of Recent and Past Developments; 1.4.2 Natural Ventilation and Safety; References; 2 Physical Processes in Natural Ventilation; 2.1 Introduction; 2.1.1 Fundamental Principles of Fluid Mechanics; 2.1.2 Numerical Analysis and CFD; 2.2 The Effect of Gravity on Ventilation Flows; 2.2.1 Navier-Stokes Equations; 2.2.2 Hydrostatic and Piezometric Pressures; 2.2.3 Envelope Flows; 2.2.4 Internal Air Motion 2.3 Types of Flow Encountered in Ventilation2.3.1 Reynolds Number; 2.3.2 Laminar Flow; 2.3.3 Transitional Flow; 2.3.4 Turbulent Flow; 2.4 Fluid Mechanics - Other Important Concepts and Equations; 2.4.1 A Fluid as a Continuum; 2.4.2 Transport Mechanisms; 2.4.3 Momentum Principle - Newton's Laws of Motion; 2.4.4 Momentum Equations for a Defined Body of Fluid and a Control Volume; 2.4.5 Hydrostatic Equation; 2.4.6 Steady Flow; 2.4.7 Mass Conservation for an Envelope; 2.4.8 Bernoulli's Equation; 2.4.9 Energy Equations for a System and a Fixed Control Volume 2.4.10 Loss Coefficient and Resistance Coefficient2.4.11 Still-air Discharge Coefficient and Resistance Coefficient; 2.4.12 Flow Separation; 2.4.13 Irrotational Flow; 2.5 Steady and Unsteady Ventilation; 2.6 Flow Through a Sudden Expansion; 2.6.1 Momentum and Continuity Equations; 2.6.2 Energy Equation; 2.6.3 Diffusion (Molecular and Turbulent); 2.7 Dimensional Analysis; 2.8 Heat Transfer between Air and Envelope; 2.9 Definitions Relating to Ventilation Rate; 2.9.1 Envelope Flows - Single Cell; 2.9.2 Envelope Flows - Multi-cell Buildings; 2.9.3 Measurement of Ventilation Rate 2.9.4 Effectiveness of Ventilation and Local Ventilation Rates2.10 Errors and Uncertainties; 2.11 Mathematical Models; 2.11.1 Envelope Flow Models (Chapters 4 and 5); 2.11.2 Zonal Models (Chapter 6); 2.11.3 Dynamic Thermal Models; 2.11.4 CFD; 2.12 Boundary Conditions; 2.12.1 Velocity; 2.12.2 Temperature; Bibliography; References; 3 Steady Flow Characteristics of Openings; 3.1 Introduction; 3.1.1 Still-air Discharge Coefficient; 3.1.2 Installation Effects; 3.2 Classification of Openings; 3.2.1 Shapes of Openings; 3.2.2 Sizes of Openings; 3.2.3 Reynolds Numbers Encountered in Practice 3.2.4 Types of Opening |
| Record Nr. | UNINA-9910820082903321 |
|
Etheridge David (David W.)
|
||
| Hoboken, N.J., : Wiley, 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||