Ian Beausoleil-Morrison (Carleton University Ottawa, Ontario, Canad
Fundamentals of Building Performance Simulation
Ian Beausoleil-Morrison (Carleton University Ottawa, Ontario, Canad
Fundamentals of Building Performance Simulation
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This textbook equips graduate students and emerging and established professionals in architecture and engineering to predict and optimize buildingsâ energy use.
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This textbook equips graduate students and emerging and established professionals in architecture and engineering to predict and optimize buildingsâ energy use.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 372
- Erscheinungstermin: 28. August 2020
- Englisch
- Abmessung: 234mm x 156mm x 21mm
- Gewicht: 610g
- ISBN-13: 9780367518066
- ISBN-10: 0367518066
- Artikelnr.: 60021000
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 372
- Erscheinungstermin: 28. August 2020
- Englisch
- Abmessung: 234mm x 156mm x 21mm
- Gewicht: 610g
- ISBN-13: 9780367518066
- ISBN-10: 0367518066
- Artikelnr.: 60021000
Ian Beausoleil-Morrison is a Professor in the Faculty of Engineering and Design at Carleton University where he is the Canada Research Professor in Innovative Energy Systems for Residential Buildings. His research interests include solar housing, seasonal thermal storage, and building performance simulation. Prior to joining Carleton University in 2007, he worked for 16 years at CanmetENERGY (a Canadian government laboratory) where he led a team of researchers developing building simulation models and tools to support industry and government programs. Professor Beausoleil-Morrison was President of IBPSA from 2010 to 2015, Vice-President from 2006 to 2010, and founded IBPSA-Canada and initiated the eSim conference series in 2001. He also cofounded and is the Co-Editor of IBPSA's Journal of Building Performance Simulation, and is a Fellow of IBPSA.
Part I Prelude
1. Introduction to BPS
Part II Building interior
2. Energy and mass transfers within buildings
3. Solar energy absorption by internal surfaces
4. Convective heat transfer at internal surfaces
5. Longwave radiation exchange between internal surfaces
6. Internal heat and moisture sources
7. Internal airflow
Part III Exterior environment
8. Energy balances at external surfaces & weather
9. Solar energy absorption by external surfaces
10. Convection heat transfer at external surfaces
11. Longwave radiation exchange at external surfaces
12. Heat transfer to the ground
Part IV Building envelope
13. Heat transfer in opaque assemblies
14. Heat transfer in transparent assemblies
15. Air infiltration and natural ventilation
Part V HVAC
16. HVAC distribution systems
17. Energy conversion and storage systems
Part VI Finale
18. Culminating trial
19. Next steps
1. Introduction to BPS
Part II Building interior
2. Energy and mass transfers within buildings
3. Solar energy absorption by internal surfaces
4. Convective heat transfer at internal surfaces
5. Longwave radiation exchange between internal surfaces
6. Internal heat and moisture sources
7. Internal airflow
Part III Exterior environment
8. Energy balances at external surfaces & weather
9. Solar energy absorption by external surfaces
10. Convection heat transfer at external surfaces
11. Longwave radiation exchange at external surfaces
12. Heat transfer to the ground
Part IV Building envelope
13. Heat transfer in opaque assemblies
14. Heat transfer in transparent assemblies
15. Air infiltration and natural ventilation
Part V HVAC
16. HVAC distribution systems
17. Energy conversion and storage systems
Part VI Finale
18. Culminating trial
19. Next steps
Part I Prelude
1. Introduction to BPS
Part II Building interior
2. Energy and mass transfers within buildings
3. Solar energy absorption by internal surfaces
4. Convective heat transfer at internal surfaces
5. Longwave radiation exchange between internal surfaces
6. Internal heat and moisture sources
7. Internal airflow
Part III Exterior environment
8. Energy balances at external surfaces & weather
9. Solar energy absorption by external surfaces
10. Convection heat transfer at external surfaces
11. Longwave radiation exchange at external surfaces
12. Heat transfer to the ground
Part IV Building envelope
13. Heat transfer in opaque assemblies
14. Heat transfer in transparent assemblies
15. Air infiltration and natural ventilation
Part V HVAC
16. HVAC distribution systems
17. Energy conversion and storage systems
Part VI Finale
18. Culminating trial
19. Next steps
1. Introduction to BPS
Part II Building interior
2. Energy and mass transfers within buildings
3. Solar energy absorption by internal surfaces
4. Convective heat transfer at internal surfaces
5. Longwave radiation exchange between internal surfaces
6. Internal heat and moisture sources
7. Internal airflow
Part III Exterior environment
8. Energy balances at external surfaces & weather
9. Solar energy absorption by external surfaces
10. Convection heat transfer at external surfaces
11. Longwave radiation exchange at external surfaces
12. Heat transfer to the ground
Part IV Building envelope
13. Heat transfer in opaque assemblies
14. Heat transfer in transparent assemblies
15. Air infiltration and natural ventilation
Part V HVAC
16. HVAC distribution systems
17. Energy conversion and storage systems
Part VI Finale
18. Culminating trial
19. Next steps