1 |
Spatial-temporal analysis of carbon emissions embodied in interprovincial trade and optimization strategies: A case study of Hebei, China Fan XJ, Wu SM, Li ST Energy, 185, 1235, 2019 |
2 |
Comparing the embodied carbon and energy of a mass timber structure system to typical steel and concrete alternatives for parking garages Zeitz A, Griffin CT, Dusicka P Energy and Buildings, 199, 126, 2019 |
3 |
Transnational transfer of carbon emissions embodied in trade: Characteristics and determinants from a spatial perspective Zhong ZQ, Jiang L, Zhou P Energy, 147, 858, 2018 |
4 |
Furthering embodied carbon assessment in practice: Results of an industry-academia collaborative research project Pomponi F, Moncaster A, De Wolf C Energy and Buildings, 167, 177, 2018 |
5 |
Assessment of material related embodied carbon of an office building in Sri Lanka Kumanayake R, Luo HB, Paulusz N Energy and Buildings, 166, 250, 2018 |
6 |
Investigating relationships between cost and CO2 emissions in reinforced concrete structures using a BIM-based design optimisation approach Eleftheriadis S, Duffour P, Greening P, James J, Stephenson B, Mumovic D Energy and Buildings, 166, 330, 2018 |
7 |
Aligning carbon targets for construction with (inter)national climate change mitigation commitments Giesekam J, Tingley DD, Cotton I Energy and Buildings, 165, 106, 2018 |
8 |
Parametric embodied carbon prediction model for early stage estimating Victoria MF, Perera S Energy and Buildings, 168, 106, 2018 |
9 |
Accuracy and reliability: A computational tool to minimise steel mass and carbon emissions at early-stage structural design D'Amico B, Pomponi F Energy and Buildings, 168, 236, 2018 |
10 |
Optimising embodied carbon and U-value in load bearing walls: A mathematical bi-objective mixed integer programming approach Hammad AWA, Akbarnezhad A, Oldfield P Energy and Buildings, 174, 657, 2018 |