| 1 - 11 |
Development and application of a simple BEMS to measure energy consumption of buildings
Yuan J, Farnham C, Emura K |
| 12 - 22 |
An occupant-based energy consumption prediction model for office equipment
Wang ZX, Ding Y |
| 23 - 34 |
Gated ensemble learning method for demand-side electricity load forecasting
Burger EM, Moura SJ |
| 35 - 46 |
Thermal-physical behavior and energy performance of air-supported membranes for sports halls: A comparison among traditional and advanced building envelopes
Suo H, Angelotti A, Zanelli A |
| 47 - 52 |
The energy saving potentials of zone-level membrane-based enthalpy recovery ventilators for VAV systems in commercial buildings
Wang LP, Curcija D, Breshears J |
| 53 - 64 |
Performance study of counter-flow indirect evaporative air coolers
Pandelidis D, Anisimov S, Worek WM |
| 65 - 74 |
Residential heating energy consumption modeling through a bottom-up approach for China's Hot Summer-Cold Winter climatic region
Wang Z, Zhao Z, Lin BR, Zhu YX, Ouyang Q |
| 75 - 89 |
Temporal knowledge discovery in big BAS data for building energy management
Fan C, Xiao F, Madsen H, Wang D |
| 90 - 107 |
Developing a simplified methodology to calculate Co-2/m(2) emissions per year in the use phase of newly-built, single-family houses
Castellano J, Castellano D, Ribera A, Ciurana J |
| 108 - 114 |
Experimental study of energy performance in low-temperature hydronic heating systems
Hesaraki A, Bourdakis E, PIoskic A, Holmberg S |
| 115 - 126 |
Demand controlled ventilation indoor climate and energy performance in a high performance building with air flow rate controlled chilled beams
Ahmed K, Kurnitski J, Sormunen P |
| 127 - 134 |
Life cycle energy analysis of museum buildings: A case study of museums in Hangzhou
Ge J, Luo XY, Hu J, Chen SQ |
| 135 - 142 |
Investigation of cooling load reduction in buildings by passive cooling options applied on roof
Sabzi D, Haseli P, Jafarian M, Karimi G, Taheri M |
| 143 - 156 |
Life cycle energy and carbon assessment of double skin facades for office refurbishments
Pomponi F, Piroozfar PAE, Southall R, Ashton P, Farr ERP |
| 157 - 173 |
Control algorithms for dynamic windows for residential buildings
Firlag S, Yazdanian M, Curcija C, Kohler C, Vidanovic S, Hart R, Czarnecki S |
| 174 - 182 |
Risk analysis of housing energy efficiency interventions under model uncertainty
Chalabi Z, Das P, Milner J, Davies M, Hamilton I, Jones B, Shrubsole G, Wilkinson P |
| 183 - 194 |
A comparative study of the environmental impact of Swedish residential buildings with vacuum insulation panels
Karami P, Al-Ayish N, Gudmundsson K |
| 195 - 208 |
In situ optimization methodology for ground source heat pump systems: Upgrade to ensure user comfort
Cervera-Vazquez J, Montagud C, Corberan JM |
| 209 - 216 |
Using multiple regression analysis to develop energy consumption indicators for commercial buildings in the US
Amiri SS, Mottahedi M, Asadi S |
| 217 - 229 |
Retrofitting with low-temperature heating to achieve energy-demand savings and thermal comfort
Wang Q, Ploskic A, Holmberg S |
| 230 - 244 |
An assessment of the relationship between embodied and thermal energy demands in dwellings in a Mediterranean climate
Rossello-Batle B, Ribas C, Moia-Pol A, Martinez-Moll V |
| 245 - 254 |
Thermal window insulation
Konroyd-Bolden E, Liao ZY |
| 255 - 266 |
Numerical investigation on the airflow characteristics and thermal comfort in buoyancy-driven natural ventilation rooms
Yang XF, Zhong K, Kang YM, Tao TY |
| 267 - 273 |
A developed procedure to predict annual heating energy by heat- and energy-recovery technologies in different climate European countries
Kassai M, Nasr MR, Simonson CJ |
| 274 - 290 |
A new validated TRNSYS module for simulating latent heat storage walls
Al-Saadi SN, Zhai ZQ |
| 291 - 303 |
Investigation of soil thermal saturation and recovery under intermittent and continuous operation of EATHE
Mathur A, Surana AK, Verma P, Mathur S, Agrawal GD, Mathur J |
| 304 - 315 |
High resolution measured domestic hot water consumption of Canadian homes
George D, Pearre NS, Swan LG |
| 316 - 327 |
Analyzing energy savings potential of the Chinese building materials industry under different economic growth scenarios
Ouyang XL, Lin BQ |
| 328 - 333 |
Comparison of empirical and modelled energy performance across age-bands of three-bedroom dwellings in the UK
Summerfield AJ, Oreszczyn T, Palmer J, Hamilton IG, Lowe RJ |
| 334 - 352 |
Visualization of energy and water consumption and GHG emissions: A case study of a Canadian University Campus
Abdelalim A, O'Brien W, Shi ZX |
| 353 - 360 |
Shape-stabilized phase change materials based on fatty acid eutectics/expanded graphite composites for thermal storage
Tang XH, Zhu B, Xu MH, Zhang W, Yang Z, Zhang YF, Yin GL, He DN, Wei H, Zhai XQ |
| 361 - 368 |
Determination of optimum insulation thickness for building walls with moisture transfer in hot summer and cold winter zone of China
Liu XW, Chen YM, Ge H, Fazio P, Chen GJ, Guo XG |
| 369 - 376 |
Reducing solar effect on the glazing material based on using non-linear patterns
Lin SJ, Li HH |
| 377 - 384 |
Thermal bridging analysis on cladding systems for building facades
Theodosiou TG, Tsikaloudaki AG, Kontoleon KJ, Bikas DK |
| 385 - 396 |
A new systemic approach to improve the sustainability performance of office buildings in the early design stage
Kreiner H, Passer A, Wallbaum H |
| 397 - 406 |
Thermal comfort in naturally ventilated buildings with double skin facade under tropical climate conditions: The influence of key design parameters
Barbosa S, Ip K, Southall R |
| 407 - 417 |
Adaptive thermal zone modeling including the storage mass of the building zone
Kossak B, Stadler M |
