| 931 - 938 |
Experimental and numerical study of a mechanically ventilated enclosure with thermal effects
Kuznik F, Rusaouen G, Hohota R |
| 939 - 948 |
Effect of damper and heat source on wind catcher natural ventilation performance
Elmualim AA |
| 949 - 958 |
Modeling and predicting building's energy use with artificial neural networks: Methods and results
Karatasou S, Santamouris M, Geros V |
| 959 - 963 |
Investigating the potential use of natural ventilation in new building designs in Turkey
Ayata T, Yildiz O |
| 964 - 971 |
Energy efficiency assessment for the Antalya Region hotels in Turkey
Onut S, Soner S |
| 972 - 980 |
Ground reflectivity in the context of building energy simulation
Thevenard D, Haddad K |
| 981 - 987 |
Optimisation of consumer benefits from microCombined Heat and Power
Boait PJ, Rylatt RM, Stokes M |
| 988 - 996 |
Comparison groups on bills: Automated, personalized energy information
Iyer M, Kempton W, Payne C |
| 997 - 1005 |
Identification and weather sensitivity of physically based model of residential air-conditioners for direct load control: A case study
El-Ferik S, Hussain SA, Al-Sunni FM |
| 1006 - 1014 |
Thermal performance evaluation of precast concrete three-wythe sandwich wall panels
Lee BJ, Pessiki S |
| 1015 - 1021 |
Comments on the correct specification of the analytical CTTC model for predicting the urban canopy layer temperature
Erell E, Williamson T |
| 1022 - 1031 |
Wall heat loss from intermittently conditioned spaces - The dynamic influence of structural and operational parameters
Tsilingiris PT |
