| 735 - 736 |
Performance simulation for better building design
Hensen J, Augenbroe G |
| 737 - 748 |
An interoperability workbench for design analysis integration
Augenbroe G, de Wilde P, Moon HJ, Malkawi A |
| 749 - 758 |
Providing computational support for the selection of energy saving building components
de Wilde P, van der Voorden M |
| 759 - 770 |
Using simulation to formulate domestic sector upgrading strategies for Scotland
Clarke JA, Johnstone CM, Kondratenko I, Lever M, McElroy LB, Prazeres L, Strachan PA, McKenzie F, Peart G |
| 771 - 779 |
Measurement of thermal environment in Kyoto city and its prediction by CFD simulation
Takahashi K, Yoshida H, Tanaka Y, Aotake N, Wang FL |
| 781 - 793 |
An approach for coupled simulation of building thermal effects and urban climatology
Tanimoto J, Hagishima A, Chimklai P |
| 795 - 805 |
Numerical modelling and thermal simulation of PCM-gypsum composites with ESP-r
Heim D, Clarke JA |
| 807 - 814 |
Development of a thermal energy storage model for EnergyPlus
Ihm A, Krarti M, Henze GP |
| 815 - 823 |
Spatio-temporal dynamics of solar shading for a parametrically defined roof system
Mardaljevic J |
| 825 - 835 |
The inlet temperature as a boundary condition for multiple-skin facade modelling
Saelens D, Roels S, Hens H |
| 837 - 846 |
The role of simulation in support of Internet-based energy services
Clarke JA, Conner S, Fujii G, Geros V, Johannesson G, Johnstone CM, Karatasou S, Kim J, Santamouris M, Strachan PA |
| 847 - 854 |
The use of simplified weather data to estimate thermal loads of non-residential buildings
Westphal FS, Lamberts R |
| 855 - 863 |
Analytical and comparative testing of EnergyPlus using lEA HVAC BESTEST E100-E200 test suite
Henninger RH, Witte MJ, Crawley DB |
