| 795 - 806 |
Real-time simulation using graceful degradation of accuracy
Vityaz O, Zimmermann G |
| 807 - 812 |
Air temperature regime in a forced ventilated greenhouse with rose crop
Kittas C, Karamanis M, Katsoulas N |
| 813 - 823 |
The effect of the use of openings on interzonal air flows in buildings: an experimental and simulation approach
Koinakis CJ |
| 824 - 835 |
Performance of solar systems employing collectors with colored absorber
Kalogirou S, Tripanagnostopoulos Y, Souliotis M |
| 836 - 843 |
Energy performance assessment of a window with a horizontal Venetian blind
Shahid H, Naylor D |
| 844 - 852 |
Thermal building behaviour in summer: long-term data evaluation using simplified models
Pfafferott J, Herkel S, Wapler J |
| 853 - 857 |
Household-electric equipment diffusion and the impacts in the demand of residential electric energy in Brazil
Mariotoni CA, Santos PR |
| 858 - 866 |
A genetic algorithm applied to the validation of building thermal models
Lauret P, Boyer H, Riviere C, Bastide A |
| 867 - 871 |
Further validation of a method aimed to estimate building performance parameters
Lundin M, Andersson S, Ostin R |
| 872 - 877 |
Thermal environment in Swedish hospitals - Summer and winter measurements
Skoog J, Fransson N, Jagemar L |
| 878 - 889 |
Wind pressure distribution influence on natural ventilation for different incidences and environment densities
van Moeseke G, Gratia E, Reiter S, De Herde A |
| 890 - 896 |
Heat transfer and pressure drop characteristics of the underfloor air distribution system
Zukowski M |
| 897 - 909 |
Application of the Building Environmental Performance Model (BEPM) in Hong Kong
Mui KW, Chan WT |
