Roberta Costantini scite author profile

Roberta Costantini

4Publications

57Citation Statements Received

67Citation Statements Given

How they've been cited

123

How they cite others

Affiliations

Adecco (Switzerland), Sapienza University of Rome, Engineering (Italy)

Publications

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Drag reduction induced by superhydrophobic surfaces in turbulent pipe flow

Costantini

Mollicone

Battista

2018

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The drag reduction induced by superhydrophobic surfaces is investigated in a turbulent pipe flow. Wetted superhydrophobic surfaces are shown to trap gas bubbles in their asperities. This stops the liquid from coming in direct contact with the wall in that location, allowing the flow to slip over the air bubbles. We consider a well-defined texture with streamwise grooves at the walls in which the gas is expected to be entrapped. This configuration is modeled with alternating no-slip and shear-free boundary conditions at the wall. With respect to the classical turbulent pipe flow, a substantial drag reduction is observed which strongly depends on the grooves’ dimension and on the solid fraction, i.e., the ratio between the solid wall surface and the total surface of the pipe’s circumference. The drag reduction is due to the mean slip velocity at the wall which increases the flow rate at a fixed pressure drop. The enforced boundary conditions also produce peculiar turbulent structures which on the contrary decrease the flow rate. The two concurrent effects provide an overall flow rate increase as demonstrated by means of the mean axial momentum balance. This equation provides the balance between the mean pressure gradient, the Reynolds stress, the mean flow rate, and the mean slip velocity contributions.

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A preliminary assessment of a new dedicated endodontic software for use with CBCT images to evaluate the canal complexity of mandibular molars

et al. 2017

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3D Endo software features the automatic detection and measurement of several anatomical canal parameters, and is a promising tool for the study of canal complexity in vivo. The unpredictable anatomy of the mesial roots of mandibular molars highlights the value of a three-dimensional preoperative evaluation of each case. The proposed scoring system aims to provide the clinician with an overall assessment of canal complexity.

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Management of teaching simulations with an authoring tool

Costantini¹,

Micarelli²,

Sarti³

et al. 2009

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Turbulence Modification in a Pipe Flow Due to Superhydrophobic Walls

Costantini

Battista

Casciola

2017

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