Cool products for building envelope - Part II: Experimental and numerical evaluation of thermal performances
Articolo
Data di Pubblicazione:
2014
Abstract:
Cool materials have a large potential as cost-effective solution for reducing cooling energy consumption in hot summer and mild winter
regions like Mediterranean countries. A previous paper has described in detail the development of cool coloured ceramic tiles, acrylic
paints and bituminous membranes for the building envelope taking into account both roof and facade application. This paper proposes
an experimental and numerical approach for evaluating thermal performances of these materials on calibrated middle scale units and the
energy impact on real buildings. This twofold analysis aims at describing a method that can help manufacturers to accurately compare
new products against existing ones taking into account also new potential applications (e.g. building facades). Five dedicated test cells
have been realized in Algete, near Madrid, fully instrumented and calibrated before being covered with traditional and cool systems of
the same colour. Thermal performances have been then monitored during summer 2012 and May 2013 showing a net reduction of heat
flux through the building envelope (up to 50% of peak value) and wall temperature (up to 4.7 C) in the case of cool materials. An uncertainty
analysis was also performed to validate results. In parallel with the testing campaign a 3D numerical model of the mock-up has
been implemented and fine-tuned with experimental data. This model has been then used as virtual scenario on which coverings with
different radiative properties can be accurately evaluated and compared. For a full characterization of new materials complementary
simulations have been performed with the ESP-r software. Yearly cooling energy reductions ranging from 0.6 to 3.5 kW h/m2 have been
estimated on different European localities. This preliminary study also demonstrates how cool facades can have a positive impact on
yearly energy savings especially in the case of multi-storeys buildings and hot climates. The results shown in the paper have been achieved
within the EU project COOL-Coverings aiming at developing new cool coloured products for the building envelope.
regions like Mediterranean countries. A previous paper has described in detail the development of cool coloured ceramic tiles, acrylic
paints and bituminous membranes for the building envelope taking into account both roof and facade application. This paper proposes
an experimental and numerical approach for evaluating thermal performances of these materials on calibrated middle scale units and the
energy impact on real buildings. This twofold analysis aims at describing a method that can help manufacturers to accurately compare
new products against existing ones taking into account also new potential applications (e.g. building facades). Five dedicated test cells
have been realized in Algete, near Madrid, fully instrumented and calibrated before being covered with traditional and cool systems of
the same colour. Thermal performances have been then monitored during summer 2012 and May 2013 showing a net reduction of heat
flux through the building envelope (up to 50% of peak value) and wall temperature (up to 4.7 C) in the case of cool materials. An uncertainty
analysis was also performed to validate results. In parallel with the testing campaign a 3D numerical model of the mock-up has
been implemented and fine-tuned with experimental data. This model has been then used as virtual scenario on which coverings with
different radiative properties can be accurately evaluated and compared. For a full characterization of new materials complementary
simulations have been performed with the ESP-r software. Yearly cooling energy reductions ranging from 0.6 to 3.5 kW h/m2 have been
estimated on different European localities. This preliminary study also demonstrates how cool facades can have a positive impact on
yearly energy savings especially in the case of multi-storeys buildings and hot climates. The results shown in the paper have been achieved
within the EU project COOL-Coverings aiming at developing new cool coloured products for the building envelope.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Cool roof; Measurement; Mock-up; Numerical model; Solar reflectance
Elenco autori:
Revel, G. M.; Martarelli, Milena; Emiliani, M; Celotti, L; Nadalini, R; Ferrari, A. D.; Hermanns, S; Beckers, E.
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