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246 New Trends in Eco-efficient and Recycled Concrete
Dahlbo, H., Bache ´r, J., L¨ ahtinen, K., Jouttij¨ arvi, T., Suoheimo, P., Mattila, T., et al., 2015.
Construction and demolition waste management a holistic evaluation of environ-
mental performance. J. Cleaner Prod. Available from: https://doi.org/10.1016/j.
jclepro.2015.02.073.
Damineli, B.L., Kemeid, F.M., Aguiar, P.S., John, V.M., 2010. Measuring the eco-efficiency
of cement use. Cem. Concr. Compos. 32 (8), 555 562.
Damtoft, J.S., Lukasik, J., Herfort, D., Sorrentino, D., Gartner, E.M., 2008. Sustainable devel-
opment and climate change initiatives. Cem. Concr. Res. 38, 115 127. Available from:
https://doi.org/10.1016/j.cemconres.2007.09.008.
de Brito, J., Pereira, A.S., Correia, J.R., 2005. Mechanical behaviour of non-structural con-
crete made with recycled ceramic aggregates. Cem. Concr. Compos. 27, 429 433.
Available from: https://doi.org/10.1016/j.cemconcomp.2004.07.005.
De Schepper, M., Van den Heede, P., Van Driessche, I., De Belie, N., 2014. Life cycle
assessment of completely recyclable concrete. Materials 7, 6010 6027. Available from:
https://doi.org/10.3390/ma7086010.
Desmyter, J., Martin, Y., 2001. The Environmental Impact of Building Materials and
Buildings (in Dutch). WTCB, Limelette.
Ding, T., Xiao, J., Tam, V.W.Y., 2016. A closed-loop life cycle assessment of recycled
aggregate concrete utilization in China. Waste Manage. 56, 367 375. Available from:
https://doi.org/10.1016/j.wasman.2016.05.031.
Dobbelaere, G., de Brito, J., Evangelista, L., 2016. Definition of an equivalent functional unit
for structural concrete incorporating recycled aggregates. Eng. Struct. 122, 196 208.
Available from: https://doi.org/10.1016/j.engstruct.2016.04.055.
Earles, J.M., Halog, A., 2011. Consequential life cycle assessment: a review. Int. J. Life
Cycle Assess. 16, 445 453.
EBC, 2017. Annual Report 2016 2017 of the European Builders Confederation. European
Building Confederation, Brussels, Belgium.
EFCA, 2018. European Federation of Concrete Admixtures Associations. Available from:
http://www.efca.info/efca-publications/environmental/ (accessed 20.09.18).
EFCA, 2015a. Concrete Admixtures-Air Entrainers (No. EPD-EFC-20150086-IAG1-EN),
Environmental Product Declaration. European Federation of Concrete Admixtures
Associations.
EFCA, 2015b. Concrete Admixtures-Hardening Accelerators (No. EPD-EFC-20150089-
IAG1-EN), Environmental Product Declaration. European Federation of Concrete
Admixtures Associations.
EFCA, 2015c. Concrete admixtures-Plasticisers and Superplasticisers (No. EPD-EFC-
20150091-IAG1-EN), Environmental Product Declaration. European Federation of
Concrete Admixtures Associations.
EFCA, 2015d. Concrete Admixtures-Retarders (No. EPD-EFC-20150088-IAG1-EN), Environmental
Product Declaration. European Federation of Concrete Admixtures Associations.
EFCA, 2015e. Concrete Admixtures-Water Resisting Admixtures (No. EPD-EFC-20150090-
IAG2-EN), Environmental Product Declaration. European Federation of Concrete
Admixtures Associations.
Ekvall, T., Azapagic, A., Finnveden, G., Rydberg, T., Weidema, B.P., Zamagni, A., 2016.
Attributional and consequential LCA in the ILCD handbook. Int. J. Life Cycle Assess.
21, 293 296. Available from: https://doi.org/10.1007/s11367-015-1026-0.
EPA, 1994. Emission factor documentation for AP-42. Section 11.6: Portland Cement
Manufacturing, Final Report, EPA Contract 68-D2-0159, MRI Project No. 4601-01.
U.S. Environmental Protection Agency, Washington D.C.
