M. Magnani scite author profile

M. Magnani

4Publications

102Citation Statements Received

13Citation Statements Given

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Affiliations

University of Padua, National Agency for New Technologies, Energy and Sustainable Economic Development, University of California, Irvine

Publications

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Numerical simulation of electrospraying in the cone-jet mode

Gamero-Castaño

Magnani

2018

J. Fluid Mech.

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This article solves numerically the equations of the leaky-dielectric model applied to cone jets. The solution is a function of the properties of the fluid and its flow rate, universal in that it does not depend on the geometry and potential of the electrodes. This is made possible by the use of the potential field generated by a semi-infinite Taylor cone as a far-field boundary condition. The numerical solution yields the current emitted by the electrospray, which compares well with experimental data, and detailed information about the velocity, surface charge, electric field and the position of the free surface. These characteristics are generally inaccessible through experiments, and are needed to understand the relative importance of competing processes and the dominant physics. The simulations investigate the liquids tributyl phosphate and propylene carbonate (dielectric constants of 8.91 and 64.9 respectively), in a wide range of electrical conductivities and flow rates. The simulations show that the position of the surface, expressed in units of the characteristic length $r_{c}$, is largely invariant regardless of the physical properties and flow rates of the liquids. The surface charge falls below its equilibrium value along the transition from cone to jet, with a deficit that increases with the ratio between the electrical relaxation and flow residence times. Several characteristics of the cone jet are functions of the dielectric constant, which is consistent with the importance of charge relaxation effects (i.e. with the absence of surface charge equilibrium). The electric energy transferred to the transition region is largely transformed into viscous and ohmic dissipation, and conversion into kinetic energy only dominates once most of the current is fixed on the surface.

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Microstructural investigation, using polarized neutron scattering, of a martensitic steel for fusion reactors

et al. 1998

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Added value of OCT in evaluating the presence of leakage in patients with age-related macular degeneration treated with PDT

Velthoven

Smet

Schlingemann

et al. 2006

Graefe's Arch Clin Exp Ophthalmol

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Inter-observer agreement for the presence of leakage was moderate for FA and good for OCT. There was considerable disagreement between leakage as judged by OCT and by FA. OCT could be of help in the decision regarding PDT retreatment. Assuming that 57% of the patients without leakage either on FA or OCT would remain stable without retreatment, the rate of probable ineffective retreatment could be reduced from 35% to 20%.

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Numerical solution of the inverse problem in the analysis of neutron small angle scattering experiments

Magnani

Puliti

Stefanon

1988

Nuclear Instruments and Methods in Physics Research Section A:

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M. Magnani

Numerical simulation of electrospraying in the cone-jet mode

Microstructural investigation, using polarized neutron scattering, of a martensitic steel for fusion reactors

Added value of OCT in evaluating the presence of leakage in patients with age-related macular degeneration treated with PDT

Numerical solution of the inverse problem in the analysis of neutron small angle scattering experiments

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