| 1 - 10 |
A numerical prediction of the passive cooling effects on thermal comfort for a historical building in Rome
Vitale V, Salerno G |
| 11 - 19 |
The Thermoheliodome - "Air conditioning" without conditioning the air, using radiant cooling and indirect evaporation
Meggers F, Guo HS, Teitelbaum E, Aschwanden G, Read J, Houchois N, Pantelic J, Calabro E |
| 20 - 29 |
Impact of urban temperatures on energy performance and thermal comfort in residential buildings. The case of Rome, Italy
Zinzi M, Carnielo E |
| 30 - 34 |
Understanding possibilities: Thermal comfort using climatic design with low energy supplementation
Karol E |
| 35 - 52 |
Thermal performance of coupled cool roof and cool facade: Experimental monitoring and analytical optimization procedure
Pisello AL, Castaldo VL, Piselli C, Fabiani C, Cotana F |
| 53 - 77 |
Energy and environmental consequences of a cool pavement campaign
Gilbert HE, Rosado PJ, Ban-Weiss G, Harvey JT, Li H, Mandel BH, Millstein D, Mohegh A, Saboori A, Levinson RM |
| 78 - 91 |
Multi-scale urban system modeling for sustainable planning and design
Lim TK, Ignatius M, Martin M, Wong NH, Juang HMH |
| 92 - 100 |
Study on aging of solar reflectance of the self-cleaning high reflectance coating
Aoyama T, Sonoda T, Nakanishi Y, Tanabe J, Takebayashi H |
| 101 - 115 |
Coupling building energy simulation software with microclimatic simulation for the evaluation of the impact of urban outdoor conditions on the energy consumption and indoor environmental quality
Gobakis K, Kolokotsa D |
| 116 - 125 |
Comparison between simplified and detailed EnergyPlus models coupled with an urban canopy model
Martin M, Wong NH, Hii DJC, Ignatius M |
| 126 - 138 |
Inverse modeling of the urban energy system using hourly electricity demand and weather measurements, Part 1: Black-box model
Afshari A, Friedrich LA |
| 139 - 156 |
Inverse modeling of the urban energy system using hourly electricity demand and weather measurements, Part 2: Gray-box model
Afshari A, Liu NB |
| 157 - 165 |
Effect of retro-reflecting transparent window on anthropogenic urban heat balance
Ichinose M, Inoue T, Nagahama T |
| 166 - 175 |
Using geospatial information and building energy simulation to construct urban residential energy use map with high resolution for Taiwan cities
Lin FY, Lin TP, Hwang RL |
| 176 - 183 |
Optical properties and field test results of spectrally-selective solar control window film that enables not increasing downward reflection
Nagahama T, Sato T, Harima T, Shimizu J |
| 184 - 194 |
An index for the overall performance of opaque building elements subjected to solar radiation
Muscio A, Akbari H |
| 195 - 203 |
Evaluation of building glass performance metrics for the tropical climate
Bui VP, Liu HZ, Low YY, Tang T, Zhu Q, Shah KW, Shidoji E, Lim YM, Koh WS |
| 204 - 217 |
A new model of urban cooling demand and heat island application to vertical greenery systems (VGS)
Afshari A |
| 218 - 226 |
Prediction of the impacts of climate change on energy consumption for a medium-size office building with two climate models
Wang LP, Liu XH, Brown H |
| 227 - 246 |
A simulation model for solar assisted shallow ground heat exchangers in series arrangement
Cimmino M, Eslami-Nejad P |
