50 research outputs found
Heat transfer in drop-laden turbulence
Heat transfer by large deformable drops in a turbulent flow is a complex and
rich in physics system, in which drops deformation, breakage and coalescence
influence the transport of heat. We study this problem coupling direct
numerical simulations (DNS) of turbulence, with a phase-field method for the
interface description. Simulations are run at fixed shear Reynolds and Weber
numbers. To evaluate the influence of microscopic flow properties, like
momentum/thermal diffusivity, on macroscopic flow properties, like mean
temperature or heat transfer rates, we consider four different values of the
Prandtl number, which is the momentum to thermal diffusivity ratio: Pr=1, Pr=2,
Pr=4 and Pr=8. The drops volume fraction is Phi=5.4% for all cases. Drops are
initially warmer than the turbulent carrier fluid, and release heat at
different rates, depending on the value of Pr, but also on their size and on
their own dynamics (topology, breakage, drop-drop interaction). Computing the
time behavior of the drops and carrier fluid average temperatures, we clearly
show that an increase of Pr slows down the heat transfer process. We explain
our results by a simplified phenomenological model: we show that the time
behavior of the drops average temperature is self similar, and a universal
behavior can be found upon rescaling by t/Pr^2/3
Indirect composite restorations luted with two different procedures: a ten years follow up clinical trial
Objectives: The aim of this clinical trial was to evaluate posterior indirect composite resin restoration ten years after
placement luted with two different procedures.
Study Design: In 23 patients 22 inlays/onlays (Group A) were luted using a dual-cured resin composite cement
and 26 inlays/onlays (Group B) were luted using a light cured resin composite for a total of 48 Class I and Class
II indirect composite resin inlays and onlays. The restorations were evaluated at 2 time points: 1) one week after
placement (baseline evaluation) and 2) ten years after placement using the modified USPHS criteria. The Mann-
Whitney and the Wilcoxon tests were used to examine the difference between the results of the baseline and 10
years evaluation for each criteria.
Results: Numerical but not statistically significant differences were noted on any of the recorded clinical parameters
(
p
>0.05) between the inlay/onlays of Group A and Group B.
91% and 94 % of Group A and B respectively were rated as clinically acceptable in all the evaluated criteria ten
years after clinical function.
Conclusions: Within the limits of the study the results showed after ten years of function a comparable clinical
performance of indirect composite resin inlays/onlays placed with a light cure or dual cure luting procedures
The Role of PIXE and XRF in Heritage Science: The INFN-CHNet LABEC Experience
Analytical techniques play a fundamental role in heritage science. Among them, Particle Induced X-ray Emission (PIXE) and X-ray Fluorescence (XRF) techniques are widely used in many laboratories for elemental composition analysis. Although they are well-established, a strong effort is put on their upgrade, making them suitable for more and more applications. Over the years, at the INFN-LABEC (the laboratory of nuclear techniques for the environment and cultural heritage of the Italian National Institute of Nuclear Physics), the INFN-CHNet group, the network devoted to cultural heritage, has carried out many technological improvements to the PIXE and XRF set-ups for the analysis of works of art and archaeological finds. Among the many, we recall here the scanning external microbeam facility at the TANDEM accelerator and the MA-XRF scanner. The two instruments have shown complementary features: the former permits quantitative analysis of elements heavier than sodium, which is not possible with the latter in most of the case studies. On the contrary, the scanner has the undeniable advantage of portability, allowing it to work in situ. In this framework of technological developments in heritage science, INFN, CERN, and OPD are jointly carrying on the MACHINA (Movable Accelerator for Cultural Heritage In-situ Non-destructive Analysis) project for on-site Ion Beam Analysis (IBA) studies on cultural heritage
Origin and Distribution of Thiophenes and Furans in Gas Discharges from Active Volcanoes and Geothermal Systems
The composition of non-methane organic volatile compounds (VOCs) determined in 139 thermal gas discharges from 18 different geothermal and volcanic systems in Italy and Latin America, consists of C2–C20 species pertaining to the alkanes, alkenes, aromatics and O-, S- and N-bearing classes of compounds. Thiophenes and mono-aromatics, especially the methylated species, are strongly enriched in fluids emissions related to hydrothermal systems. Addition of hydrogen sulphide to dienes and electrophilic methylation involving halogenated radicals may be invoked for the formation of these species. On the contrary, the formation of furans, with the only exception of C4H8O, seems to be favoured at oxidizing conditions and relatively high temperatures, although mechanisms similar to those hypothesized for the production of thiophenes can be suggested. Such thermodynamic features are typical of fluid reservoirs feeding high-temperature thermal discharges of volcanoes characterised by strong degassing activity, which are likely affected by conspicuous contribution from a magmatic source. The composition of heteroaromatics in fluids naturally discharged from active volcanoes and geothermal areas can then be considered largely dependent on the interplay between hydrothermal vs. magmatic contributions. This implies that they can be used as useful geochemical tools to be successfully applied in both volcanic monitoring and geothermal prospection
Endodontic treatment of a "peculiar" upper central incisor [Il trattamento endodontico di un "particolarissimo" incisivo centrale superiore.]
The Author presents a clinical case of a maxillary central incisor where the periapical radiograph revealed a process of fusion, an internal resorption, the presence of a "dens invaginatus" and an important periapical radiolucency. In this tooth was located, treated and filled three different root canals