| 273 - 285 |
An experimental investigation of application of radiant cooling in hot humid climate
Vangtook P, Chirarattananon S |
| 286 - 292 |
Performance investigation of two geothermal district heating systems for building applications: Energy analysis
Ozgener L, Hepbasli A, Dincer I |
| 293 - 302 |
The use of a heavy internal wall with a ventilated air gap to store solar energy and improve summer comfort in timber frame houses
Fraisse G, Johannes K, Trillat-Berdal V, Achard G |
| 303 - 314 |
Simultaneous heat and moisture transfer in soils combined with building simulation
dos Santos GH, Mendes N |
| 315 - 326 |
Energy demand and indoor climate in a low energy building-changed control strategies and boundary conditions
Karlsson JF, Moshfegh B |
| 327 - 333 |
Modelling and experimental validation of a hot water supply substation
Bajsic I, Bobic M |
| 334 - 339 |
Low-energy design for air-cooled chiller plants in air-conditioned buildings
Yu FW, Chan KT |
| 340 - 348 |
Veritication for transient heat conduction calculation of multilayer building constructions
Chen YM, Zhou J, Spitler JD |
| 349 - 356 |
A model for energy analysis in supermarkets
Ducoulombier M, Teyssedou A, Sorin M |
| 357 - 366 |
Experimental investigation and computer simulation of thermal behaviour of wallboards containing a phase change material
Ahmad M, Bontemps A, Sallee H, Quenard D |
| 367 - 376 |
Experimental investigation of air flow and temperature distribution in deep urban canyons for natural ventilation purposes
Georgakis C, Santamouris A |
| 377 - 380 |
A novel montmorillonite-based composite phase change material and its applications in thermal storage building materials
Fang XM, Zhang ZG |
