8 research outputs found
Alkali-Activated Red Mud and Construction and Demolition Waste-Based Components: Characterization and Environmental Assessment
The aluminum Bayer production process is the most diffused process in the world, but it creates a high amount of basic waste material known as red mud (RM). The use of RM as a precursor of alkali-activated materials is one of the best opportunities for both the ecosystem and the economy. In the present work, mortar samples were obtained by alkali activation of RM with various percentages of blast-furnace slag (BFS) and inert construction and demolition sands. This process creates samples that have a low environmental impact and that can be used as an alternative in the construction industry to cement materials or ceramic ones. The development of these new materials could also represent a way to reduce the CO2 emissions linked to cement and ceramic brick production. In the present study, cubic 40 mm samples reported very interesting values in compressive strength, with a maximum of about 70 MPa for low environmental impact mortars. With such a material, it is possible to create solid bricks for structural use and concrete tiles for road paving or use it for other purposes. Mortar specimens were prepared and characterized, and an LCA analysis with a “cradle-to-gate” approach was carried out for a comparison of the environmental impact of the studied mortars with other materials currently marketed
Virtual and Reality: A Neurophysiological Pilot Study of the Sarcophagus of the Spouses
Art experience is not solely the observation of artistic objects, but great relevance is also placed on the environment in which the art experience takes place, often in museums and galleries. Interestingly, in the last few years, the introduction of some forms of virtual reality (VR) in museum contexts has been increasing. This has solicited enormous research interest in investigating any eventual differences between looking at the same artifact either in a real context (e.g. a museum) and in VR. To address such a target, a neuroaesthetic study was performed in which electroencephalography (EEG) and autonomic signals (heart rate and skin conductance) were recorded during the observation of the Etruscan artifact “Sarcophagus of the Spouses”, both in the museum and in a VR reproduction. Results from EEG analysis showed a higher level of the Workload Index during observation in the museum compared to VR (p = 0.04), while the Approach–Withdrawal Index highlighted increased levels during the observation in VR compared to the observation in the museum (p = 0.03). Concerning autonomic indices, the museum elicited a higher Emotional Index response than the VR (p = 0.03). Overall, preliminary results suggest a higher engagement potential of the museum compared to VR, although VR could also favour higher embodiment than the museum
Use of a New Hybrid Sol–Gel Zirconia Matrix in the Removal of the Herbicide MCPA: A Sorption/Degradation Process
A class II hybrid sol–gel material was prepared
starting
from zirconiumÂ(IV) propoxide and 2,4-pentanedione and its catalytic
activity in the removal of the herbicide 4-chloro-2-methylphenoxyacetic
acid (MCPA) was revealed. The thermal and structural characterization,
performed by thermogravimetry, differential thermal analysis, and
diffuse reflectance Fourier transform infrared spectroscopy, demonstrated
the hybrid nature of the material. The structure of the material can
be described as a polymeric network of zirconium oxo clusters, on
the surface of which large part of Zr<sup>4+</sup> ions are involved
in strong complexation equilibria with acetylacetonate (<i>acac)</i> ligands. The incubation of MCPA in the presence of this material
yielded an herbicide removal fraction up to 98%. A two-step mechanism
was proposed for the MCPA removal, in which a reversible first-order
adsorption of the herbicide is followed by its catalytic degradation.
The nature of the products of the MCPA catalytic degradation as well
as the reaction conditions adopted do not support typical oxidation
pathways involving radicals, suggesting the existence of a different
mechanism in which the Zr<sup>4+</sup>:<i>acac</i> enol-type
complex can act as Lewis acid catalyst