| 509 - 516 |
Exergetic modeling and performance evaluation of solar water heating systems for building applications
Gunerhan H, Hepbasli A |
| 517 - 524 |
Field performance of an energy pile system for space heating
Hamada Y, Saitoh H, Nakamura M, Kubota H, Ochifuji K |
| 525 - 536 |
Optimal simplified thermal models of building envelope based on frequency domain regression using genetic algorithm
Xu XH, Wang SW |
| 537 - 545 |
A comparative study of different control strategies for indoor air humidity
Chua KJ, Ho JC, Chou SK |
| 546 - 557 |
Performance assessment of low-energy buildings in central Argentina
Filippin C, Beascochea A |
| 558 - 568 |
Evaluation program for the energy-saving of variable-air-volume systems
Yao Y, Lian ZW, Liu WW, Hou ZJ, Wu M |
| 569 - 579 |
Assessment of building cooling energy need through a quasi-steady state model: Simplified correlation for gain-loss mismatch
Corrado V, Fabrizio E |
| 580 - 592 |
Proposal of a modeling approach considering urban form for evaluation of city level energy management
Yamaguchi Y, Shimoda Y, Mizuno M |
| 593 - 598 |
Application range of thermally activated building systems tabs
Lehmann B, Dorer V, Koschenz M |
| 599 - 604 |
Flywheel energy storage - An upswing technology for energy sustainability
Liu HH, Jiang JH |
| 605 - 619 |
Are energy consumptions decreased with the addition of a double-skin?
Gratia E, De Herde A |
| 620 - 628 |
Emergy analysis of building manufacturing, maintenance and use: Em-building indices to evaluate housing sustainability
Pulselli RM, Simoncini E, Pulselli FM, Bastianoni S |
