| 1033 - 1043 |
Building occupancy detection through sensor belief networks
Dodier RH, Henze GP, Tiller DK, Guo X |
| 1044 - 1052 |
Estimating static heat flows in buildings for energy allocation systems
Pakanen J, Karjalainen S |
| 1053 - 1059 |
Economic assessment of geothermal district heating systems: A case study of Balcova-Narlidere, Turkey
Erdogmus B, Taksoy M, Ozerdem B, Aksoy N |
| 1060 - 1068 |
Sensitivity analysis and application guides for integrated building energy and CFD simulation
Zhai ZJ, Chen QYY |
| 1069 - 1075 |
Feedback simulation of duct design for alkali exhaust system in a semiconductor factory
Chen WL, Chen HJ, Chen SL |
| 1076 - 1083 |
Measuring residential duct efficiency with the short-term coheat test methodology
Francisco PW, Siegel J, Palmiter L, Davis B |
| 1084 - 1092 |
Design and installation of an advanced EIB (TM) fuzzy indoor comfort controller using Matlab (TM)
Kolokotsa D, Saridakis G, Pouliezos A, Stavrakakis GS |
| 1093 - 1103 |
Building energy efficiency and thermal comfort in tropical climates -Presentation of a numerical approach for predicting the percentage of well-ventilated living spaces in buildings using natural ventilation
Bastide A, Lauret P, Garde F, Boyer H |
| 1104 - 1110 |
Application of night cooling concept to social housing design in dry hot climate
Macias M, Mateo A, Schuler M, Mitre EM |
| 1111 - 1119 |
District heating system design for a university campus
Yildirim N, Toksoy M, Gokcen G |
| 1120 - 1129 |
Prediction of energy savings with anidolic integrated ceiling across different daylight climates
Wittkopf SK, Yuniarti E, Soon LK |
| 1130 - 1139 |
Thermal plumes of kitchen appliances: Idle mode
Kosonen R, Koskela H, Saarinen P |
