A simple method for the comparison of bioclimatic design strategies based on dynamic indoor thermal comfort assessment for school buildings
Articolo
Data di Pubblicazione:
2017
Abstract:
Bioclimatic design strategies have been proposed for decades, on a qualitative basis, because a quantitative approach, ineludibly
based on dynamic measurements or simulations, was too expansive and complex. If simulation considerably evolved, in the last
years, in terms of speed, cost and diffusion of available tools, their utilization is still complicated by the managing a huge amount
of hourly data. The passive behavior of a building, moreover, is not effortlessly synthetized: conditioned buildings may be easily
compared just summing the hourly consumption of primary energy, while buildings with no thermal plant need more
sophisticated statistical analyses because in these kind of buildings, it is particularly difficult to assess the effect thermal inertia.
The existing school buildings stock has a strong need of energy renovation in accordance with Government vision of a
community 24 hours a day use and consequently increasing the requirement of comfort conditions and energy consumption.
Hence, a current school building heated and not cooled is considered as application field of the novel methodology and a
classroom is used to test different energy retrofit solutions compared against a base-line, in terms of capacity to decrease the
indoor air temperature variation. The analyzed simulations have been thus compared with ideal comfort conditions by an original
analysis approach based on a visual tool as a support for designers in choices comparison to simply assess and visualize the
performance of building technologies.
based on dynamic measurements or simulations, was too expansive and complex. If simulation considerably evolved, in the last
years, in terms of speed, cost and diffusion of available tools, their utilization is still complicated by the managing a huge amount
of hourly data. The passive behavior of a building, moreover, is not effortlessly synthetized: conditioned buildings may be easily
compared just summing the hourly consumption of primary energy, while buildings with no thermal plant need more
sophisticated statistical analyses because in these kind of buildings, it is particularly difficult to assess the effect thermal inertia.
The existing school buildings stock has a strong need of energy renovation in accordance with Government vision of a
community 24 hours a day use and consequently increasing the requirement of comfort conditions and energy consumption.
Hence, a current school building heated and not cooled is considered as application field of the novel methodology and a
classroom is used to test different energy retrofit solutions compared against a base-line, in terms of capacity to decrease the
indoor air temperature variation. The analyzed simulations have been thus compared with ideal comfort conditions by an original
analysis approach based on a visual tool as a support for designers in choices comparison to simply assess and visualize the
performance of building technologies.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Thermal comfort; thermal inertia; school building; bioclimatic architecture; energy performance and data analysis
Elenco autori:
DE ANGELIS, Enrico; Tagliabue, Lavinia C.; Re Cecconi, Fulvio; Mainini, Andrea G.
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