| 1361 - 1368 |
Phase change materials for building applications: A state-of-the-art review
Baetens R, Jelle BP, Gustavsen A |
| 1369 - 1375 |
Uncertain programming of building cooling heating and power (BCHP) system based on Monte-Carlo method
Li CZ, Shi YM, Liu S, Zheng ZL, Liu YC |
| 1376 - 1385 |
Applicability and optimum control strategy of energy recovery ventilators in different climatic conditions
Rasouli M, Simonson CJ, Besant RW |
| 1386 - 1393 |
Simulation, performance analysis and optimization of desiccant wheels
De Antonellis S, Joppolo CM, Molinaroli L |
| 1394 - 1401 |
Comparison between design and actual energy performance of a HVAC-ground coupled heat pump system in cooling and heating operation
Magraner T, Montero A, Quilis S, Urchueguia JF |
| 1402 - 1408 |
Experimental and numerical investigation of a hollow brick filled with perlite insulation
Zukowski M, Haese G |
| 1409 - 1417 |
Thermal performance of an electrochromic smart window tested in an environmental test cell
Piccolo A |
| 1418 - 1425 |
Energy and exergy analyses of ice rink buildings at varying reference temperatures
Caliskan H, Hepbasli A |
| 1426 - 1436 |
A criterion for the assessment of the reliability of ASHRAE conduction transfer function coefficients
Ciulla G, Lo Brano V, Orioli A |
| 1437 - 1444 |
A holistic approach to energy efficient building forms
Okeil A |
| 1445 - 1452 |
Building temperature regulation using a distributed model predictive control
Morosan PD, Bourdais R, Dumur D, Buisson J |
| 1453 - 1462 |
A low carbon cooling system using renewable energy resources and technologies
Prasartkaew B, Kumar S |
| 1463 - 1471 |
Climate classifications and building energy use implications in China
Wan KKW, Li DHW, Yang L, Lam JC |
| 1472 - 1481 |
Life cycle cost assessment of building integrated photovoltaic thermal (BIPVT) systems
Agrawal B, Tiwari GN |
| 1482 - 1490 |
A generic model of Exergy Assessment for the Environmental Impact of Building Lifecycle
Liu M, Li BZ, Yao RM |
| 1491 - 1498 |
Analysis and optimization of the use of CHP-ORC systems for small commercial buildings
Mago PJ, Hueffed A, Chamra LM |
| 1499 - 1509 |
Energy performance assessment of double-skin facade with thermal mass
Fallahi A, Haghighat F, Elsadi H |
| 1510 - 1516 |
Modeling of the heating system in small building for control
Ogonowski S |
| 1517 - 1523 |
Life Cycle Assessment of the inclusion of phase change materials (PCM) in experimental buildings
de Gracia A, Rincon L, Castell A, Jimenez M, Boer D, Medrano M, Cabeza LF |
| 1524 - 1535 |
Energetic, economic and environmental performance of a solar-thermal-assisted HVAC system
Mammoli A, Vorobieff P, Barsun H, Burnett R, Fisher D |
| 1536 - 1542 |
A cellular automaton based model simulating HVAC fluid and heat transport in a building. Modeling approach and comparison with experimental results
Saiz A, Urchueguia JF, Martos J |
| 1543 - 1551 |
Occupancy diversity factors for common university building types
Davis JA, Nutter DW |
| 1552 - 1560 |
The development of a finned phase change material (PCM) storage system to take advantage of off-peak electricity tariff for improvement in cost of heat pump operation
Agyenim F, Hewitt N |
| 1561 - 1566 |
On-site study of HCFC-22 substitution for HFC non-azeotropic blends (R417A, R422D) on a water chiller of a centralized HVAC system
Torrella E, Cabello R, Sanchez D, Larumbe JA, Llopis R |
