| 419 - 427 |
Modelling the double skin facade with plants
Stec WJ, van Paassen AHC, Maziarz A |
| 429 - 442 |
Heating energy consumption and resulting environmental impact of European apartment buildings
Balaras CA, Droutsa K, Dascalaki E, Kontoyiannidis S |
| 443 - 449 |
Thermal comfort and energy saving of a personalized PFCU air-conditioning system
Pan CS, Chiang HC, Yen MC, Wang CC |
| 451 - 459 |
Sustainable earth walls to meet the building regulations
Goodhew S, Griffiths R |
| 461 - 469 |
Symbiosis of the double skin facade with the HVAC system
Stec WJ, van Paassen AHC |
| 471 - 483 |
Assessing the thermal performance of an emergency shelter system
Crawford C, Manfield P, McRobie A |
| 485 - 492 |
A design tool for predicting the performances of light pipes
Jenkins D, Muneer T, Kubie J |
| 493 - 501 |
Experiences with a gas driven, desiccant assisted air conditioning system with geothermal energy for an office building
Casas W, Schmitz G |
| 503 - 513 |
Comparative monitoring of natural, hybrid and mechanical ventilation systems in urban canyons
Niachou K, Hassid S, Santamouris M, Livada I |
| 515 - 527 |
Deterioration of European apartment buildings
Balaras CA, Droutsa K, Dascalaki E, Kontoyiannidis S |
| 529 - 544 |
Modeling energy efficiency of bioclimatic buildings
Tzikopoulos AF, Karatza MC, Paravantis JA |
| 545 - 553 |
Applying support vector machines to predict building energy consumption in tropical region
Dong B, Cao C, Lee SE |
