Nome |
# |
Numerical modelling of open channel junctions using the Riemann problem approach, file e309ade2-25a7-3969-e053-3a05fe0a2c94
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246
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Alcuni schemi path-conservativi per l’integrazione delle acque basse su fondo mobile, file e309ade4-74ed-3969-e053-3a05fe0a2c94
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175
|
A comparison between bottom-discontinuity numerical treatments in the DG framework, file e309ade0-d84f-3969-e053-3a05fe0a2c94
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117
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The Selfish-Brain hypothesis as possible cause of arterial hypertension: a modeling study, file e309ade4-d6fc-3969-e053-3a05fe0a2c94
|
107
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Junction Riemann problem for one-dimensional shallow water equations with bottom discontinuities and channels width variations, file e309ade3-6fae-3969-e053-3a05fe0a2c94
|
97
|
Computational hemodynamics in arteries with the one-dimensional augmented fluid-structure interaction system: viscoelastic parameters estimation and comparison with in-vivo data, file e309ade2-e068-3969-e053-3a05fe0a2c94
|
86
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Modeling blood flow in viscoelastic vessels: the 1D augmented fluid–structure interaction system, file e309ade2-dd9c-3969-e053-3a05fe0a2c94
|
76
|
Mathematical study of linear morphodynamic acceleration and derivation of the MASSPEED approach, file e309ade2-d6a1-3969-e053-3a05fe0a2c94
|
45
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The turbulent structure of the flow field generated by a hydrofoil in stalling condition beneath a water-air interface, file e309ade3-6e1d-3969-e053-3a05fe0a2c94
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39
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Well balancing of the SWE schemes for moving-water steady flows, file e309ade2-e220-3969-e053-3a05fe0a2c94
|
35
|
Thermal Instability of a Power-Law Fluid Flowing in a Horizontal Porous Layer with an Open Boundary: A Two-Dimensional Analysis, file e309ade3-6b3b-3969-e053-3a05fe0a2c94
|
32
|
Momentum balance in the shallow water equations on bottom discontinuities, file e309ade2-de70-3969-e053-3a05fe0a2c94
|
20
|
Dam break in rectangular channels with different upstream-downstream widths, file e309ade4-609f-3969-e053-3a05fe0a2c94
|
16
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Alcuni schemi path-conservativi per l’integrazione delle acque basse su fondo mobile, file e309ade0-e562-3969-e053-3a05fe0a2c94
|
15
|
Numerical methods for hydraulic transients in visco-elastic pipes, file e309ade2-dce6-3969-e053-3a05fe0a2c94
|
15
|
Free Surface Axially Symmetric Flows and Radial Hydraulic Jumps, file e309ade2-de07-3969-e053-3a05fe0a2c94
|
13
|
Modeling blood flow in viscoelastic vessels: the 1D augmented fluid–structure interaction system, file e309ade2-8940-3969-e053-3a05fe0a2c94
|
12
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Crollo diga in corrispondenza di brusche variazioni di larghezza, file e309ade1-f0d8-3969-e053-3a05fe0a2c94
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11
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The augmented FSI system for blood flow in viscoelastic vessels solved with IMEX schemes, file e309ade2-2f73-3969-e053-3a05fe0a2c94
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11
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Efficient analytical implementation of the DOT Riemann solver for the de Saint Venant–Exner morphodynamic model, file e309ade2-d8dc-3969-e053-3a05fe0a2c94
|
11
|
Cardiac contractility is a key factor in determining pulse pressure and its peripheral amplification, file 297a41e5-8ce8-4688-b5fa-7f512cd328db
|
10
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Numerical methods for hydraulic transients in visco-elastic pipes, file e309ade1-cce3-3969-e053-3a05fe0a2c94
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10
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Modelli numerici per lo studio di fenomeni transitori idraulici in condotte viscoelastiche, file e309ade1-f518-3969-e053-3a05fe0a2c94
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9
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Numerical modelling of open channel junctions using the Riemann problem approach, file e309ade2-dce8-3969-e053-3a05fe0a2c94
|
8
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Modeling blood flow in networks of viscoelastic vessels with the 1-D augmented fluid–structure interaction system, file ee398ad3-64a3-426c-8710-ec27b8be2324
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8
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Modeling essential hypertension with a closed-loop mathematical model for the entire human circulation, file 58ad214e-8ad2-4b1a-9bd7-41d4234ac48a
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7
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Modellazione del flusso sanguigno in vasi viscoelastici, file 152dbc94-ea38-41bd-90f8-554f48f9dc66
|
6
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null, file e309ade0-bdde-3969-e053-3a05fe0a2c94
|
6
|
Computational hemodynamics in arteries with the one-dimensional augmented fluid-structure interaction system: viscoelastic parameters estimation and comparison with in-vivo data, file e309ade2-850a-3969-e053-3a05fe0a2c94
|
6
|
Analytical solutions for Stoker dam-break in changing-width channels, file e309ade2-dc1e-3969-e053-3a05fe0a2c94
|
6
|
Uncertainty quantification of viscoelastic parameters in arterial hemodynamics with the a-FSI blood flow model, file e309ade4-0734-3969-e053-3a05fe0a2c94
|
6
|
The Numerical Simulation of Steady and Unsteady Flows in Channel Networks Using an Extended Riemann Problem at the Junctions, file e309ade1-f059-3969-e053-3a05fe0a2c94
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5
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Dam-break on channel contractions and expansions, file e309ade1-f061-3969-e053-3a05fe0a2c94
|
5
|
Junction Riemann problem for one-dimensional shallow water equations with bottom discontinuities and channels width variations, file e309ade1-f271-3969-e053-3a05fe0a2c94
|
5
|
The value of viscoelasticity in computational hemodynamics: Uncertainty quantification and comparison with in-vivo data, file 3cc32c52-4d27-44a7-8865-d31abab0762f
|
4
|
Modellazione del flusso sanguigno con sistema A-FSI: stima dei parametri e validazione in-vivo, file afebdf4c-385c-4d3f-b3a0-6a3ca95ab9db
|
4
|
Experimental study of the grain-water mixture flow past a cylinder of
different shapes, file e309ade0-4e1d-3969-e053-3a05fe0a2c94
|
4
|
Alcuni schemi path-conservativi per l’integrazione delle acque basse su fondo mobile, file e309ade0-e563-3969-e053-3a05fe0a2c94
|
4
|
A stochastic AP-scheme for non-conservative blood flow models with uncertainties, file f65e4a8b-ab5d-4a0a-802b-f1259b9fc685
|
4
|
Modellazione del flusso sanguigno in reti di vasi viscoelastici, file 44c4e1b9-201e-4bc5-a9a2-440820dac887
|
3
|
Valutazione delle proprietà cardiache tramite l’analisi delle forme d’onda nel sistema cardiovascolare., file 8cd04bcc-898f-4b58-8620-debbeff509a3
|
3
|
Modeling blood flow in networks of viscoelastic vessels with the 1-D augmented fluid–structure interaction system, file d207253e-3bf2-4b83-90d0-ed1ca073c775
|
3
|
The effect of cardiac properties on arterial pulse waves: An in-silico study, file db61d7d3-9bfc-42dc-aa53-930b03de3581
|
3
|
Linear and angular momentum conservation for the hydraulic jump in converging channels, file e309ade0-4a49-3969-e053-3a05fe0a2c94
|
3
|
Efficient analytical implementation of the DOT Riemann solver for the de Saint Venant–Exner morphodynamic model, file e309ade1-975d-3969-e053-3a05fe0a2c94
|
3
|
A comparison of numerical methods for compressible flows in viscoelastic pipes, file e309ade1-f513-3969-e053-3a05fe0a2c94
|
3
|
The augmented FSI system for blood flow in compliant vessels, file e309ade1-f53c-3969-e053-3a05fe0a2c94
|
3
|
Dam break in rectangular channels with different upstream-downstream widths, file e309ade2-4fc1-3969-e053-3a05fe0a2c94
|
3
|
Ruolo relativo delle proprietà cardiache e vascolari nella determinazione della pressione sanguigna, file 372e125d-9344-43ee-ae0a-62d9725dce83
|
2
|
Consistent treatment of boundary conditions for blood flow modeling in networks of viscoelastic vessels, file 3cc5757c-9965-40b0-b2e1-578cc90c7d8e
|
2
|
Crollo diga in alvei di sezione qualunque con brusche variazioni di sezione., file d18f751a-8caa-4448-b1ac-acbd4c7c2115
|
2
|
A study of the hydrodynamics of the coastal lagoon "Valli di Comacchio", file e309ade0-2fcb-3969-e053-3a05fe0a2c94
|
2
|
null, file e309ade0-b367-3969-e053-3a05fe0a2c94
|
2
|
The turbulent structure of the flow field generated by a hydrofoil in stalling condition beneath a water-air interface, file e309ade0-b399-3969-e053-3a05fe0a2c94
|
2
|
Momentum balance in the shallow water equations on bottom discontinuities, file e309ade1-5000-3969-e053-3a05fe0a2c94
|
2
|
Well balancing of the SWE schemes for moving-water steady flows, file e309ade1-5380-3969-e053-3a05fe0a2c94
|
2
|
Mathematical study of linear morphodynamic acceleration and derivation of the MASSPEED approach, file e309ade1-f273-3969-e053-3a05fe0a2c94
|
2
|
Accuracy-preserving IMEX schemes applied to the augmented FSI system for blood flow in viscoelastic vessels, file e309ade2-2c74-3969-e053-3a05fe0a2c94
|
2
|
Thermal Instability of a Power-Law Fluid Flowing in a Horizontal Porous Layer with an Open Boundary: A Two-Dimensional Analysis, file e309ade2-de71-3969-e053-3a05fe0a2c94
|
2
|
Numerical modelling of open channel junctions using the Riemann problem approach, file e309ade3-7238-3969-e053-3a05fe0a2c94
|
2
|
Uncertainty quantification of viscoelastic parameters in arterial hemodynamics with the a-FSI blood flow model, file e309ade3-7b82-3969-e053-3a05fe0a2c94
|
2
|
The effect of cardiac properties on arterial pulse waves: An in-silico study, file 0a9e4c01-d1a0-47dd-9c3c-8914992b3e9a
|
1
|
Linear and angular momentum conservation in hydraulic jump in diverging channels, file e309ade0-3688-3969-e053-3a05fe0a2c94
|
1
|
A 2D local discontinuous Galerkin method for contaminant transport in channel bends, file e309ade0-4a48-3969-e053-3a05fe0a2c94
|
1
|
null, file e309ade0-a5a6-3969-e053-3a05fe0a2c94
|
1
|
Free Surface Axially Symmetric Flows and Radial Hydraulic Jumps, file e309ade0-cec9-3969-e053-3a05fe0a2c94
|
1
|
Numerical methods for compressible flows in compliant tubes, file e309ade1-f511-3969-e053-3a05fe0a2c94
|
1
|
Numerical methods for hydraulic transients in visco-elastic pipes, file e309ade2-e222-3969-e053-3a05fe0a2c94
|
1
|
Computational analysis to assess cardiac properties from vascular pulse waves, file fd2ec9b9-ed39-41a3-a410-14b977e2a2a2
|
1
|
Totale |
1.357 |