Abstract
Marble is a natural material, used in the construction field since antiquity. It has always been used to communicate monumentality and solidity. Nowadays new technologies permit marble to express new languages: particularly, translucent marble technology overturns the concept of solidity. The main issue to address is the lack of thermal-energy performance of such a thin stone layer as the only facade component. Conversely, Bianco Carrara and Statuario marbles, for instance, have intrinsic benefits as natural cool materials, due to their high solar reflectance and thermal emissivity. Thus, this paper analyzes the thermal-energy and environmental behavior of marble facade for a new designed building in New York City. An integrated analysis of the energy performance of the marble skin is performed through a preliminary experimental characterization, carried out for two different types of naturally white marble, for comparative purposes. Then, a dynamic simulation model of the building is developed to evaluate year-round benefits and drawbacks of the translucent marble envelope in terms of indoor thermal comfort and air-conditioning requirement. The analysis showed how the proposed marble facade is able to decrease the energy requirement for cooling up to 6%, demonstrating possible relevant perspectives for marble-based facades, even in energy-efficient buildings.
Highlights
Energy efficiency of buildings appears nowadays as an essential field to analyze and improve upon.The aim to reduce the energy consumption of constructions is expressed by the European program, Horizon 2020, the biggest EU research and innovation program addressing both academic and industry institutions [1]
The first part of the main results could be considered as a general characterization of the marble facade solution, while the second one is building-specific, since a case study has been chosen for this work
The compared measurements are the values of the solar reflection index (SRI), solar transmittance and absorbance, color rendering index (CRI) and emissivity, taken for Statuario (S) and Bianco Carrara (BC) marble
Summary
The aim to reduce the energy consumption of constructions is expressed by the European program, Horizon 2020, the biggest EU research and innovation program addressing both academic and industry institutions [1]. This program is aimed at reducing greenhouse gas emissions by 20%. Since buildings account for 32% of total final energy consumption and represent around 40% of primary energy consumption in most countries [2], the construction field has a high potential for energy savings In this panorama, it is essential to reach the optimal energy performance for every building, considering its global combination of construction elements and connection with the surrounding environment, starting from the early design phase. A tool for analyzing new technologies, applied as building construction materials, considering their dynamically variable energy performance and their innovative potential, appears a current topic
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