Verfügbarkeit: Fundamentals of building performance simulation

Fundamentals of building performance simulation:

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Bibliographische Detailangaben
1. Verfasser:	Beausoleil-Morrison, Ian (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York ; London Routledge 2021
Schlagworte:	Buildings-Performance-Simulation methods
Online-Zugang:	TUM01
Beschreibung:	Description based on publisher supplied metadata and other sources
Beschreibung:	1 Online-Ressource Illustrationen, Diagramme
ISBN:	9781000169287 9781003055273

Internformat

MARC


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505	8		\|a Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Foreword -- Preface -- Nomenclature -- Part I: Prelude -- Chapter 1: Introduction to BPS -- 1.1: What is BPS? -- 1.2: How Does It Work? -- 1.3: What is It Used for? -- 1.4: BPS Tools and Users -- 1.5: A Brief History of BPS -- 1.6: Is BPS Valid? -- 1.7: Required Reading -- 1.8: Sources for Further Learning -- 1.9: Simulation Exercises -- 1.10 Closing Remarks -- Part II: Building Interior -- Chapter 2: Energy and mass transfers within buildings -- 2.1: Significant Processes -- 2.2: The Thermal Zone -- 2.3: Forming Energy and Mass Balances -- 2.4: Zone Mass Balance on Dry Air -- 2.5: Zone Mass Balance on Water Vapour -- 2.6: Zone Energy Balance -- 2.7: Energy Balance at Internal Surfaces -- 2.8: Solving the Energy and Mass Balances -- 2.9: Required Reading -- 2.10: Sources for Further Learning -- 2.11: Simulation Exercises -- 2.12: Closing Remarks -- Chapter 3: Solar energy absorption by internal surfaces -- 3.1: Solar Processes Relevant to Buildings -- 3.2: Solar Radiation Basics -- 3.3: Modelling Approach -- 3.4: Distribution of Solar Beam Irradiance -- 3.5: Distribution of Diffuse and Reflected Solar Irradiance -- 3.6: Required Reading -- 3.7: Sources for Further Learning -- 3.8: Simulation Exercises -- 3.9: Closing Remarks -- Chapter 4: Convective heat transfer at internal surfaces -- 4.1: Modelling Approach -- 4.2: Convection Heat Transfer Basics -- 4.3: Convective Regimes Within Buildings -- 4.4: Convection Correlations for Buildings -- 4.5: Common Approaches for Determining Convection Coefficients -- 4.6: Required Reading -- 4.7: Sources for Further Learning -- 4.8: Simulation Exercises -- 4.9: Closing Remarks -- Chapter 5: Longwave radiation exchange between internal surfaces -- 5.1: Radiation between Internal Surfaces -- 5.2: Emission of Longwave Radiation
505	8		\|a 5.3: Radiative Properties -- 5.4: View Factors -- 5.5: Enclosure Theory -- 5.6: Calculating Exchange between Surfaces -- 5.7: Determining View Factors -- 5.8: Linearization and Simplifications -- 5.9: Required Reading -- 5.10: Sources for Further Learning -- 5.11: Simulation Exercises -- 5.12: Closing Remarks -- Chapter 6: Internal heat and moisture sources -- 6.1: Heat and Moisture Source Terms in Mass and Energy Balances -- 6.2: Sources of Heat and Moisture in Buildings -- 6.3: Magnitude of Gains -- 6.4: Temporal Variation of Gains -- 6.5: Occupant Behaviour -- 6.6: Required Reading -- 6.7: Sources for Further Learning -- 6.8: Simulation Exercises -- 6.9: Closing Remarks -- Chapter 7: Internal airflow -- 7.1: Transfer of Air between Zones -- 7.2: Options for Treating Transfer Air -- 7.3: Ventilation Models -- 7.4: Required Reading -- 7.5: Sources for Further Learning -- 7.6: Simulation Exercises -- 7.7: Closing Remarks -- Part III: Exterior Environment -- Chapter 8: Energy balances at external surfaces &amp -- weather -- 8.1: Energy Balance at External Surfaces -- 8.2: Influence of Environmental Conditions -- 8.3: Weather Files and Their Limitations -- 8.4: Which Weather File? -- 8.5: Sources of Weather Files -- 8.6: Required Reading -- 8.7: Sources for Further Learning -- 8.8: Simulation Exercises -- 8.9: Closing Remarks -- Chapter 9: Solar energy absorption by external surfaces -- 9.1: Modelling Approach -- 9.2: Beam and Diffuse Irradiance to the Horizontal -- 9.3: Beam Irradiance to a Building Surface -- 9.4: Diffuse Irradiance to a Building Surface -- 9.5: Ground-Reflected Irradiance to a Building Surface -- 9.6: Shading -- 9.7: Required Reading -- 9.8: Sources for Further Learning -- 9.9: Simulation Exercises -- 9.10: Closing Remarks -- Chapter 10: Convection heat transfer at external surfaces -- 10.1: Modelling Approach
505	8		\|a 10.2: Convection Correlations -- 10.3: Local Wind Speed and User Options -- 10.4: Required Reading -- 10.5: Sources for Further Learning -- 10.6: Simulation Exercises -- 10.7: Closing Remarks -- 10.5: Sources for Further Learning -- Chapter 11: Longwave radiation exchange at external surfaces -- 11.1: Modelling Approach -- 11.2: Calculating Longwave Exchange -- 11.3: Effective Temperatures and View Factors -- 11.4: Sky Temperature -- 11.5: Required Reading -- 11.6: Sources for Further Learning -- 11.7: Simulation Exercises -- 11.8: Closing Remarks -- Chapter 12: Heat transfer to the ground -- 12.1: Modelling Ground Heat Transfer -- 12.2: Detailed Numerical Methods -- 12.3: Aadding Soil to Below-Grade Envelope Constructions -- 12.4: Regression and analytical approaches -- 12.5: Simplified Approximations -- 12.6: Required Reading -- 12.7: Sources for Further Learning -- 12.8: Simulation Exercises -- 12.9: Closing Remarks -- Part IV: Building Envelope -- Chapter 13: Heat transfer in opaque assemblies -- 13.1: Heat Transfer Processes -- 13.2: Modelling Approach -- 13.3: Numerical Methods -- 13.4: Response Function Methods -- 13.5: Transfer Function Methods -- 13.6: Lumped Parameter Methods -- 13.7: Multidimensional Effects -- 13.8: Required Reading -- 13.9: Sources for Further Learning -- 13.10: Simulation Exercises -- 13.11: Closing Remarks -- Chapter 14: Heat transfer in transparent assemblies -- 14.1: Heat Transfer Processes -- 14.2: Modelling Approach -- 14.3: Solar Transmission and Absorption -- 14.4: Conduction and Storage by Glazing -- 14.5: Heat Transfer between Glazings -- 14.6: Spacers and Frames -- 14.7: Required Reading -- 14.8: Sources for Further Learning -- 14.9: Simulation Exercises -- 14.10: Closing Remarks -- Chapter 15: Air infiltration and natural ventilation -- 15.1: Airflows through the Building Envelope -- 15.2: Modelling Options
505	8		\|a 15.3: Single-Zone Models -- 15.4: Network Airflow Models -- 15.5: Required Reading -- 15.6: Sources for Further Learning -- 15.7: Simulation Exercises -- 15.8: Closing Remarks -- Part V: HVAC -- Chapter 16: HVAC distribution systems -- 16.1: HVAC System Configuration and Control -- 16.2: Modelling Approaches -- 16.3: Idealized Methods -- 16.4: Air-Mixing Duct Models -- 16.5: Heating and Cooling Coil Models -- 16.6: Variable-Speed Fan Models -- 16.7: Hydronic Radiator Models -- 16.8: Required Reading -- 16.9: Sources for Further Learning -- 16.10: Simulation Exercises -- 16.11: Closing Remarks -- Chapter 17: Energy conversion and storage systems -- 17.1: Modelling Approaches -- 17.2: Combustion Boiler Models -- 17.3: Heat Pump Models -- 17.4: Solar Thermal Collector Models -- 17.5: Thermal Energy Storage Models -- 17.6: Required Reading -- 17.7: Sources for Further Learning -- 17.8: Simulation Exercises -- 17.9: Closing Remarks -- Part VI: Finale -- Chapter 18: Culminating trial -- 18.1: Overview -- 18.2: Approach -- 18.3: Objectives of Analyses -- 18.4: Case Study Building -- 18.5: Building Envelope -- 18.6: HVAC -- 18.7: Internal Heat and Moisture Sources -- 18.8: Simulation Exercises -- 18.9: Closing Remarks -- Chapter 19: Next steps -- References -- Index
650		4	\|a Buildings-Performance-Simulation methods
776	0	8	\|i Erscheint auch als \|a Beausoleil-Morrison, Ian \|t Fundamentals of Building Performance Simulation \|d Milton : CRC Press LLC,c2020 \|n Druck-Ausgabe, Hardcover \|z 978-0-367-51805-9
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Datensatz im Suchindex

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author	Beausoleil-Morrison, Ian
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contents	Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Foreword -- Preface -- Nomenclature -- Part I: Prelude -- Chapter 1: Introduction to BPS -- 1.1: What is BPS? -- 1.2: How Does It Work? -- 1.3: What is It Used for? -- 1.4: BPS Tools and Users -- 1.5: A Brief History of BPS -- 1.6: Is BPS Valid? -- 1.7: Required Reading -- 1.8: Sources for Further Learning -- 1.9: Simulation Exercises -- 1.10 Closing Remarks -- Part II: Building Interior -- Chapter 2: Energy and mass transfers within buildings -- 2.1: Significant Processes -- 2.2: The Thermal Zone -- 2.3: Forming Energy and Mass Balances -- 2.4: Zone Mass Balance on Dry Air -- 2.5: Zone Mass Balance on Water Vapour -- 2.6: Zone Energy Balance -- 2.7: Energy Balance at Internal Surfaces -- 2.8: Solving the Energy and Mass Balances -- 2.9: Required Reading -- 2.10: Sources for Further Learning -- 2.11: Simulation Exercises -- 2.12: Closing Remarks -- Chapter 3: Solar energy absorption by internal surfaces -- 3.1: Solar Processes Relevant to Buildings -- 3.2: Solar Radiation Basics -- 3.3: Modelling Approach -- 3.4: Distribution of Solar Beam Irradiance -- 3.5: Distribution of Diffuse and Reflected Solar Irradiance -- 3.6: Required Reading -- 3.7: Sources for Further Learning -- 3.8: Simulation Exercises -- 3.9: Closing Remarks -- Chapter 4: Convective heat transfer at internal surfaces -- 4.1: Modelling Approach -- 4.2: Convection Heat Transfer Basics -- 4.3: Convective Regimes Within Buildings -- 4.4: Convection Correlations for Buildings -- 4.5: Common Approaches for Determining Convection Coefficients -- 4.6: Required Reading -- 4.7: Sources for Further Learning -- 4.8: Simulation Exercises -- 4.9: Closing Remarks -- Chapter 5: Longwave radiation exchange between internal surfaces -- 5.1: Radiation between Internal Surfaces -- 5.2: Emission of Longwave Radiation 5.3: Radiative Properties -- 5.4: View Factors -- 5.5: Enclosure Theory -- 5.6: Calculating Exchange between Surfaces -- 5.7: Determining View Factors -- 5.8: Linearization and Simplifications -- 5.9: Required Reading -- 5.10: Sources for Further Learning -- 5.11: Simulation Exercises -- 5.12: Closing Remarks -- Chapter 6: Internal heat and moisture sources -- 6.1: Heat and Moisture Source Terms in Mass and Energy Balances -- 6.2: Sources of Heat and Moisture in Buildings -- 6.3: Magnitude of Gains -- 6.4: Temporal Variation of Gains -- 6.5: Occupant Behaviour -- 6.6: Required Reading -- 6.7: Sources for Further Learning -- 6.8: Simulation Exercises -- 6.9: Closing Remarks -- Chapter 7: Internal airflow -- 7.1: Transfer of Air between Zones -- 7.2: Options for Treating Transfer Air -- 7.3: Ventilation Models -- 7.4: Required Reading -- 7.5: Sources for Further Learning -- 7.6: Simulation Exercises -- 7.7: Closing Remarks -- Part III: Exterior Environment -- Chapter 8: Energy balances at external surfaces &amp -- weather -- 8.1: Energy Balance at External Surfaces -- 8.2: Influence of Environmental Conditions -- 8.3: Weather Files and Their Limitations -- 8.4: Which Weather File? -- 8.5: Sources of Weather Files -- 8.6: Required Reading -- 8.7: Sources for Further Learning -- 8.8: Simulation Exercises -- 8.9: Closing Remarks -- Chapter 9: Solar energy absorption by external surfaces -- 9.1: Modelling Approach -- 9.2: Beam and Diffuse Irradiance to the Horizontal -- 9.3: Beam Irradiance to a Building Surface -- 9.4: Diffuse Irradiance to a Building Surface -- 9.5: Ground-Reflected Irradiance to a Building Surface -- 9.6: Shading -- 9.7: Required Reading -- 9.8: Sources for Further Learning -- 9.9: Simulation Exercises -- 9.10: Closing Remarks -- Chapter 10: Convection heat transfer at external surfaces -- 10.1: Modelling Approach 10.2: Convection Correlations -- 10.3: Local Wind Speed and User Options -- 10.4: Required Reading -- 10.5: Sources for Further Learning -- 10.6: Simulation Exercises -- 10.7: Closing Remarks -- 10.5: Sources for Further Learning -- Chapter 11: Longwave radiation exchange at external surfaces -- 11.1: Modelling Approach -- 11.2: Calculating Longwave Exchange -- 11.3: Effective Temperatures and View Factors -- 11.4: Sky Temperature -- 11.5: Required Reading -- 11.6: Sources for Further Learning -- 11.7: Simulation Exercises -- 11.8: Closing Remarks -- Chapter 12: Heat transfer to the ground -- 12.1: Modelling Ground Heat Transfer -- 12.2: Detailed Numerical Methods -- 12.3: Aadding Soil to Below-Grade Envelope Constructions -- 12.4: Regression and analytical approaches -- 12.5: Simplified Approximations -- 12.6: Required Reading -- 12.7: Sources for Further Learning -- 12.8: Simulation Exercises -- 12.9: Closing Remarks -- Part IV: Building Envelope -- Chapter 13: Heat transfer in opaque assemblies -- 13.1: Heat Transfer Processes -- 13.2: Modelling Approach -- 13.3: Numerical Methods -- 13.4: Response Function Methods -- 13.5: Transfer Function Methods -- 13.6: Lumped Parameter Methods -- 13.7: Multidimensional Effects -- 13.8: Required Reading -- 13.9: Sources for Further Learning -- 13.10: Simulation Exercises -- 13.11: Closing Remarks -- Chapter 14: Heat transfer in transparent assemblies -- 14.1: Heat Transfer Processes -- 14.2: Modelling Approach -- 14.3: Solar Transmission and Absorption -- 14.4: Conduction and Storage by Glazing -- 14.5: Heat Transfer between Glazings -- 14.6: Spacers and Frames -- 14.7: Required Reading -- 14.8: Sources for Further Learning -- 14.9: Simulation Exercises -- 14.10: Closing Remarks -- Chapter 15: Air infiltration and natural ventilation -- 15.1: Airflows through the Building Envelope -- 15.2: Modelling Options 15.3: Single-Zone Models -- 15.4: Network Airflow Models -- 15.5: Required Reading -- 15.6: Sources for Further Learning -- 15.7: Simulation Exercises -- 15.8: Closing Remarks -- Part V: HVAC -- Chapter 16: HVAC distribution systems -- 16.1: HVAC System Configuration and Control -- 16.2: Modelling Approaches -- 16.3: Idealized Methods -- 16.4: Air-Mixing Duct Models -- 16.5: Heating and Cooling Coil Models -- 16.6: Variable-Speed Fan Models -- 16.7: Hydronic Radiator Models -- 16.8: Required Reading -- 16.9: Sources for Further Learning -- 16.10: Simulation Exercises -- 16.11: Closing Remarks -- Chapter 17: Energy conversion and storage systems -- 17.1: Modelling Approaches -- 17.2: Combustion Boiler Models -- 17.3: Heat Pump Models -- 17.4: Solar Thermal Collector Models -- 17.5: Thermal Energy Storage Models -- 17.6: Required Reading -- 17.7: Sources for Further Learning -- 17.8: Simulation Exercises -- 17.9: Closing Remarks -- Part VI: Finale -- Chapter 18: Culminating trial -- 18.1: Overview -- 18.2: Approach -- 18.3: Objectives of Analyses -- 18.4: Case Study Building -- 18.5: Building Envelope -- 18.6: HVAC -- 18.7: Internal Heat and Moisture Sources -- 18.8: Simulation Exercises -- 18.9: Closing Remarks -- Chapter 19: Next steps -- References -- Index
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dewey-hundreds	700 - The arts
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dewey-search	720.472011
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discipline_str_mv	Architektur
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Further Learning -- 12.8: Simulation Exercises -- 12.9: Closing Remarks -- Part IV: Building Envelope -- Chapter 13: Heat transfer in opaque assemblies -- 13.1: Heat Transfer Processes -- 13.2: Modelling Approach -- 13.3: Numerical Methods -- 13.4: Response Function Methods -- 13.5: Transfer Function Methods -- 13.6: Lumped Parameter Methods -- 13.7: Multidimensional Effects -- 13.8: Required Reading -- 13.9: Sources for Further Learning -- 13.10: Simulation Exercises -- 13.11: Closing Remarks -- Chapter 14: Heat transfer in transparent assemblies -- 14.1: Heat Transfer Processes -- 14.2: Modelling Approach -- 14.3: Solar Transmission and Absorption -- 14.4: Conduction and Storage by Glazing -- 14.5: Heat Transfer between Glazings -- 14.6: Spacers and Frames -- 14.7: Required Reading -- 14.8: Sources for Further Learning -- 14.9: Simulation Exercises -- 14.10: Closing Remarks -- Chapter 15: Air infiltration and natural ventilation -- 15.1: Airflows through the Building Envelope -- 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Simulation Exercises -- 17.9: Closing Remarks -- Part VI: Finale -- Chapter 18: Culminating trial -- 18.1: Overview -- 18.2: Approach -- 18.3: Objectives of Analyses -- 18.4: Case Study Building -- 18.5: Building Envelope -- 18.6: HVAC -- 18.7: Internal Heat and Moisture Sources -- 18.8: Simulation Exercises -- 18.9: Closing Remarks -- Chapter 19: Next steps -- References -- Index</subfield></datafield><datafield tag="650" ind1=" " ind2="4"><subfield code="a">Buildings-Performance-Simulation methods</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Erscheint auch als</subfield><subfield code="a">Beausoleil-Morrison, Ian</subfield><subfield code="t">Fundamentals of Building Performance Simulation</subfield><subfield code="d">Milton : CRC Press LLC,c2020</subfield><subfield code="n">Druck-Ausgabe, Hardcover</subfield><subfield code="z">978-0-367-51805-9</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Erscheint auch 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spelling	Beausoleil-Morrison, Ian Verfasser (DE-588)1244965758 aut Fundamentals of building performance simulation Ian Beausoleil-Morrison New York ; London Routledge 2021 © 2021 1 Online-Ressource Illustrationen, Diagramme txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Foreword -- Preface -- Nomenclature -- Part I: Prelude -- Chapter 1: Introduction to BPS -- 1.1: What is BPS? -- 1.2: How Does It Work? -- 1.3: What is It Used for? -- 1.4: BPS Tools and Users -- 1.5: A Brief History of BPS -- 1.6: Is BPS Valid? -- 1.7: Required Reading -- 1.8: Sources for Further Learning -- 1.9: Simulation Exercises -- 1.10 Closing Remarks -- Part II: Building Interior -- Chapter 2: Energy and mass transfers within buildings -- 2.1: Significant Processes -- 2.2: The Thermal Zone -- 2.3: Forming Energy and Mass Balances -- 2.4: Zone Mass Balance on Dry Air -- 2.5: Zone Mass Balance on Water Vapour -- 2.6: Zone Energy Balance -- 2.7: Energy Balance at Internal Surfaces -- 2.8: Solving the Energy and Mass Balances -- 2.9: Required Reading -- 2.10: Sources for Further Learning -- 2.11: Simulation Exercises -- 2.12: Closing Remarks -- Chapter 3: Solar energy absorption by internal surfaces -- 3.1: Solar Processes Relevant to Buildings -- 3.2: Solar Radiation Basics -- 3.3: Modelling Approach -- 3.4: Distribution of Solar Beam Irradiance -- 3.5: Distribution of Diffuse and Reflected Solar Irradiance -- 3.6: Required Reading -- 3.7: Sources for Further Learning -- 3.8: Simulation Exercises -- 3.9: Closing Remarks -- Chapter 4: Convective heat transfer at internal surfaces -- 4.1: Modelling Approach -- 4.2: Convection Heat Transfer Basics -- 4.3: Convective Regimes Within Buildings -- 4.4: Convection Correlations for Buildings -- 4.5: Common Approaches for Determining Convection Coefficients -- 4.6: Required Reading -- 4.7: Sources for Further Learning -- 4.8: Simulation Exercises -- 4.9: Closing Remarks -- Chapter 5: Longwave radiation exchange between internal surfaces -- 5.1: Radiation between Internal Surfaces -- 5.2: Emission of Longwave Radiation 5.3: Radiative Properties -- 5.4: View Factors -- 5.5: Enclosure Theory -- 5.6: Calculating Exchange between Surfaces -- 5.7: Determining View Factors -- 5.8: Linearization and Simplifications -- 5.9: Required Reading -- 5.10: Sources for Further Learning -- 5.11: Simulation Exercises -- 5.12: Closing Remarks -- Chapter 6: Internal heat and moisture sources -- 6.1: Heat and Moisture Source Terms in Mass and Energy Balances -- 6.2: Sources of Heat and Moisture in Buildings -- 6.3: Magnitude of Gains -- 6.4: Temporal Variation of Gains -- 6.5: Occupant Behaviour -- 6.6: Required Reading -- 6.7: Sources for Further Learning -- 6.8: Simulation Exercises -- 6.9: Closing Remarks -- Chapter 7: Internal airflow -- 7.1: Transfer of Air between Zones -- 7.2: Options for Treating Transfer Air -- 7.3: Ventilation Models -- 7.4: Required Reading -- 7.5: Sources for Further Learning -- 7.6: Simulation Exercises -- 7.7: Closing Remarks -- Part III: Exterior Environment -- Chapter 8: Energy balances at external surfaces &amp -- weather -- 8.1: Energy Balance at External Surfaces -- 8.2: Influence of Environmental Conditions -- 8.3: Weather Files and Their Limitations -- 8.4: Which Weather File? -- 8.5: Sources of Weather Files -- 8.6: Required Reading -- 8.7: Sources for Further Learning -- 8.8: Simulation Exercises -- 8.9: Closing Remarks -- Chapter 9: Solar energy absorption by external surfaces -- 9.1: Modelling Approach -- 9.2: Beam and Diffuse Irradiance to the Horizontal -- 9.3: Beam Irradiance to a Building Surface -- 9.4: Diffuse Irradiance to a Building Surface -- 9.5: Ground-Reflected Irradiance to a Building Surface -- 9.6: Shading -- 9.7: Required Reading -- 9.8: Sources for Further Learning -- 9.9: Simulation Exercises -- 9.10: Closing Remarks -- Chapter 10: Convection heat transfer at external surfaces -- 10.1: Modelling Approach 10.2: Convection Correlations -- 10.3: Local Wind Speed and User Options -- 10.4: Required Reading -- 10.5: Sources for Further Learning -- 10.6: Simulation Exercises -- 10.7: Closing Remarks -- 10.5: Sources for Further Learning -- Chapter 11: Longwave radiation exchange at external surfaces -- 11.1: Modelling Approach -- 11.2: Calculating Longwave Exchange -- 11.3: Effective Temperatures and View Factors -- 11.4: Sky Temperature -- 11.5: Required Reading -- 11.6: Sources for Further Learning -- 11.7: Simulation Exercises -- 11.8: Closing Remarks -- Chapter 12: Heat transfer to the ground -- 12.1: Modelling Ground Heat Transfer -- 12.2: Detailed Numerical Methods -- 12.3: Aadding Soil to Below-Grade Envelope Constructions -- 12.4: Regression and analytical approaches -- 12.5: Simplified Approximations -- 12.6: Required Reading -- 12.7: Sources for Further Learning -- 12.8: Simulation Exercises -- 12.9: Closing Remarks -- Part IV: Building Envelope -- Chapter 13: Heat transfer in opaque assemblies -- 13.1: Heat Transfer Processes -- 13.2: Modelling Approach -- 13.3: Numerical Methods -- 13.4: Response Function Methods -- 13.5: Transfer Function Methods -- 13.6: Lumped Parameter Methods -- 13.7: Multidimensional Effects -- 13.8: Required Reading -- 13.9: Sources for Further Learning -- 13.10: Simulation Exercises -- 13.11: Closing Remarks -- Chapter 14: Heat transfer in transparent assemblies -- 14.1: Heat Transfer Processes -- 14.2: Modelling Approach -- 14.3: Solar Transmission and Absorption -- 14.4: Conduction and Storage by Glazing -- 14.5: Heat Transfer between Glazings -- 14.6: Spacers and Frames -- 14.7: Required Reading -- 14.8: Sources for Further Learning -- 14.9: Simulation Exercises -- 14.10: Closing Remarks -- Chapter 15: Air infiltration and natural ventilation -- 15.1: Airflows through the Building Envelope -- 15.2: Modelling Options 15.3: Single-Zone Models -- 15.4: Network Airflow Models -- 15.5: Required Reading -- 15.6: Sources for Further Learning -- 15.7: Simulation Exercises -- 15.8: Closing Remarks -- Part V: HVAC -- Chapter 16: HVAC distribution systems -- 16.1: HVAC System Configuration and Control -- 16.2: Modelling Approaches -- 16.3: Idealized Methods -- 16.4: Air-Mixing Duct Models -- 16.5: Heating and Cooling Coil Models -- 16.6: Variable-Speed Fan Models -- 16.7: Hydronic Radiator Models -- 16.8: Required Reading -- 16.9: Sources for Further Learning -- 16.10: Simulation Exercises -- 16.11: Closing Remarks -- Chapter 17: Energy conversion and storage systems -- 17.1: Modelling Approaches -- 17.2: Combustion Boiler Models -- 17.3: Heat Pump Models -- 17.4: Solar Thermal Collector Models -- 17.5: Thermal Energy Storage Models -- 17.6: Required Reading -- 17.7: Sources for Further Learning -- 17.8: Simulation Exercises -- 17.9: Closing Remarks -- Part VI: Finale -- Chapter 18: Culminating trial -- 18.1: Overview -- 18.2: Approach -- 18.3: Objectives of Analyses -- 18.4: Case Study Building -- 18.5: Building Envelope -- 18.6: HVAC -- 18.7: Internal Heat and Moisture Sources -- 18.8: Simulation Exercises -- 18.9: Closing Remarks -- Chapter 19: Next steps -- References -- Index Buildings-Performance-Simulation methods Erscheint auch als Beausoleil-Morrison, Ian Fundamentals of Building Performance Simulation Milton : CRC Press LLC,c2020 Druck-Ausgabe, Hardcover 978-0-367-51805-9 Erscheint auch als Druck-Ausgabe, Paperback 978-0-367-51806-6
spellingShingle	Beausoleil-Morrison, Ian Fundamentals of building performance simulation Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Foreword -- Preface -- Nomenclature -- Part I: Prelude -- Chapter 1: Introduction to BPS -- 1.1: What is BPS? -- 1.2: How Does It Work? -- 1.3: What is It Used for? -- 1.4: BPS Tools and Users -- 1.5: A Brief History of BPS -- 1.6: Is BPS Valid? -- 1.7: Required Reading -- 1.8: Sources for Further Learning -- 1.9: Simulation Exercises -- 1.10 Closing Remarks -- Part II: Building Interior -- Chapter 2: Energy and mass transfers within buildings -- 2.1: Significant Processes -- 2.2: The Thermal Zone -- 2.3: Forming Energy and Mass Balances -- 2.4: Zone Mass Balance on Dry Air -- 2.5: Zone Mass Balance on Water Vapour -- 2.6: Zone Energy Balance -- 2.7: Energy Balance at Internal Surfaces -- 2.8: Solving the Energy and Mass Balances -- 2.9: Required Reading -- 2.10: Sources for Further Learning -- 2.11: Simulation Exercises -- 2.12: Closing Remarks -- Chapter 3: Solar energy absorption by internal surfaces -- 3.1: Solar Processes Relevant to Buildings -- 3.2: Solar Radiation Basics -- 3.3: Modelling Approach -- 3.4: Distribution of Solar Beam Irradiance -- 3.5: Distribution of Diffuse and Reflected Solar Irradiance -- 3.6: Required Reading -- 3.7: Sources for Further Learning -- 3.8: Simulation Exercises -- 3.9: Closing Remarks -- Chapter 4: Convective heat transfer at internal surfaces -- 4.1: Modelling Approach -- 4.2: Convection Heat Transfer Basics -- 4.3: Convective Regimes Within Buildings -- 4.4: Convection Correlations for Buildings -- 4.5: Common Approaches for Determining Convection Coefficients -- 4.6: Required Reading -- 4.7: Sources for Further Learning -- 4.8: Simulation Exercises -- 4.9: Closing Remarks -- Chapter 5: Longwave radiation exchange between internal surfaces -- 5.1: Radiation between Internal Surfaces -- 5.2: Emission of Longwave Radiation 5.3: Radiative Properties -- 5.4: View Factors -- 5.5: Enclosure Theory -- 5.6: Calculating Exchange between Surfaces -- 5.7: Determining View Factors -- 5.8: Linearization and Simplifications -- 5.9: Required Reading -- 5.10: Sources for Further Learning -- 5.11: Simulation Exercises -- 5.12: Closing Remarks -- Chapter 6: Internal heat and moisture sources -- 6.1: Heat and Moisture Source Terms in Mass and Energy Balances -- 6.2: Sources of Heat and Moisture in Buildings -- 6.3: Magnitude of Gains -- 6.4: Temporal Variation of Gains -- 6.5: Occupant Behaviour -- 6.6: Required Reading -- 6.7: Sources for Further Learning -- 6.8: Simulation Exercises -- 6.9: Closing Remarks -- Chapter 7: Internal airflow -- 7.1: Transfer of Air between Zones -- 7.2: Options for Treating Transfer Air -- 7.3: Ventilation Models -- 7.4: Required Reading -- 7.5: Sources for Further Learning -- 7.6: Simulation Exercises -- 7.7: Closing Remarks -- Part III: Exterior Environment -- Chapter 8: Energy balances at external surfaces &amp -- weather -- 8.1: Energy Balance at External Surfaces -- 8.2: Influence of Environmental Conditions -- 8.3: Weather Files and Their Limitations -- 8.4: Which Weather File? -- 8.5: Sources of Weather Files -- 8.6: Required Reading -- 8.7: Sources for Further Learning -- 8.8: Simulation Exercises -- 8.9: Closing Remarks -- Chapter 9: Solar energy absorption by external surfaces -- 9.1: Modelling Approach -- 9.2: Beam and Diffuse Irradiance to the Horizontal -- 9.3: Beam Irradiance to a Building Surface -- 9.4: Diffuse Irradiance to a Building Surface -- 9.5: Ground-Reflected Irradiance to a Building Surface -- 9.6: Shading -- 9.7: Required Reading -- 9.8: Sources for Further Learning -- 9.9: Simulation Exercises -- 9.10: Closing Remarks -- Chapter 10: Convection heat transfer at external surfaces -- 10.1: Modelling Approach 10.2: Convection Correlations -- 10.3: Local Wind Speed and User Options -- 10.4: Required Reading -- 10.5: Sources for Further Learning -- 10.6: Simulation Exercises -- 10.7: Closing Remarks -- 10.5: Sources for Further Learning -- Chapter 11: Longwave radiation exchange at external surfaces -- 11.1: Modelling Approach -- 11.2: Calculating Longwave Exchange -- 11.3: Effective Temperatures and View Factors -- 11.4: Sky Temperature -- 11.5: Required Reading -- 11.6: Sources for Further Learning -- 11.7: Simulation Exercises -- 11.8: Closing Remarks -- Chapter 12: Heat transfer to the ground -- 12.1: Modelling Ground Heat Transfer -- 12.2: Detailed Numerical Methods -- 12.3: Aadding Soil to Below-Grade Envelope Constructions -- 12.4: Regression and analytical approaches -- 12.5: Simplified Approximations -- 12.6: Required Reading -- 12.7: Sources for Further Learning -- 12.8: Simulation Exercises -- 12.9: Closing Remarks -- Part IV: Building Envelope -- Chapter 13: Heat transfer in opaque assemblies -- 13.1: Heat Transfer Processes -- 13.2: Modelling Approach -- 13.3: Numerical Methods -- 13.4: Response Function Methods -- 13.5: Transfer Function Methods -- 13.6: Lumped Parameter Methods -- 13.7: Multidimensional Effects -- 13.8: Required Reading -- 13.9: Sources for Further Learning -- 13.10: Simulation Exercises -- 13.11: Closing Remarks -- Chapter 14: Heat transfer in transparent assemblies -- 14.1: Heat Transfer Processes -- 14.2: Modelling Approach -- 14.3: Solar Transmission and Absorption -- 14.4: Conduction and Storage by Glazing -- 14.5: Heat Transfer between Glazings -- 14.6: Spacers and Frames -- 14.7: Required Reading -- 14.8: Sources for Further Learning -- 14.9: Simulation Exercises -- 14.10: Closing Remarks -- Chapter 15: Air infiltration and natural ventilation -- 15.1: Airflows through the Building Envelope -- 15.2: Modelling Options 15.3: Single-Zone Models -- 15.4: Network Airflow Models -- 15.5: Required Reading -- 15.6: Sources for Further Learning -- 15.7: Simulation Exercises -- 15.8: Closing Remarks -- Part V: HVAC -- Chapter 16: HVAC distribution systems -- 16.1: HVAC System Configuration and Control -- 16.2: Modelling Approaches -- 16.3: Idealized Methods -- 16.4: Air-Mixing Duct Models -- 16.5: Heating and Cooling Coil Models -- 16.6: Variable-Speed Fan Models -- 16.7: Hydronic Radiator Models -- 16.8: Required Reading -- 16.9: Sources for Further Learning -- 16.10: Simulation Exercises -- 16.11: Closing Remarks -- Chapter 17: Energy conversion and storage systems -- 17.1: Modelling Approaches -- 17.2: Combustion Boiler Models -- 17.3: Heat Pump Models -- 17.4: Solar Thermal Collector Models -- 17.5: Thermal Energy Storage Models -- 17.6: Required Reading -- 17.7: Sources for Further Learning -- 17.8: Simulation Exercises -- 17.9: Closing Remarks -- Part VI: Finale -- Chapter 18: Culminating trial -- 18.1: Overview -- 18.2: Approach -- 18.3: Objectives of Analyses -- 18.4: Case Study Building -- 18.5: Building Envelope -- 18.6: HVAC -- 18.7: Internal Heat and Moisture Sources -- 18.8: Simulation Exercises -- 18.9: Closing Remarks -- Chapter 19: Next steps -- References -- Index Buildings-Performance-Simulation methods
title	Fundamentals of building performance simulation
title_auth	Fundamentals of building performance simulation
title_exact_search	Fundamentals of building performance simulation
title_exact_search_txtP	Fundamentals of building performance simulation
title_full	Fundamentals of building performance simulation Ian Beausoleil-Morrison
title_fullStr	Fundamentals of building performance simulation Ian Beausoleil-Morrison
title_full_unstemmed	Fundamentals of building performance simulation Ian Beausoleil-Morrison
title_short	Fundamentals of building performance simulation
title_sort	fundamentals of building performance simulation
topic	Buildings-Performance-Simulation methods
topic_facet	Buildings-Performance-Simulation methods
work_keys_str_mv	AT beausoleilmorrisonian fundamentalsofbuildingperformancesimulation

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