| 1 |
The exploration of the life-cycle energy saving potential for using prefabrication in residential buildings in China
Zhu H, Hong JK, Shen GQ, Mao C, Zhang HJ, Li ZR
Energy and Buildings, 166, 561, 2018 |
| 2 |
A retrospective on the impact of Annex 40 and Annex 47 research on the international state of building commissioning
Ferretti NM, Miyata M, Baumann O
Energy and Buildings, 158, 54, 2018 |
| 3 |
An object-oriented model for construction method selection in buildings using fuzzy information
Ebrahiminejad M, Shakeri E, Ardeshir A, Zarandi MHF
Energy and Buildings, 178, 228, 2018 |
| 4 |
Interaction effects of building technology and resident behavior on energy consumption in residential buildings
Zhao D, McCoy AP, Du J, Agee P, Lu YJ
Energy and Buildings, 134, 223, 2017 |
| 5 |
Design model for analysis of relationships among CO2 emissions, cost, and structural parameters in green building construction with composite columns
Oh BK, Park JS, Choi SW, Park HS
Energy and Buildings, 118, 301, 2016 |
| 6 |
Assessment of embodied carbon emissions for building construction in China: Comparative case studies using alternative methods
Zhang XC, Wang FL
Energy and Buildings, 130, 330, 2016 |
| 7 |
Validation of neural network model for predicting airtightness of residential and non-residential units in Poland
Krstic H, Otkovic II, Kosinski P, Wojcik R
Energy and Buildings, 133, 423, 2016 |
| 8 |
Embodied and operational energy in buildings on 20 Norwegian dairy farms - Introducing the building construction approach to agriculture
Koesling M, Ruge G, Fystro G, Torp T, Hansen S
Energy and Buildings, 108, 330, 2015 |
| 9 |
Energetic study of a Trombe wall system under different Tunisian building configurations
Abbassi F, Dimassi N, Dehmani L
Energy and Buildings, 80, 302, 2014 |
| 10 |
A simplified method to estimate the energy-saving potentials of frequent construction and demolition process in China
Fu F, Pan LY, Ma LW, Li Z
Energy, 49, 316, 2013 |
