| Nome |
# |
|
Proceedings of the DIPSI Workshop 2011. Droplet Impact Phenomena & Spray Investigations, Bergamo, Italy, 27th may 2011, file e40f7b85-3b15-afca-e053-6605fe0aeaf2
|
933
|
|
Modelling of spheroidal drop evaporation with non-uniform temperature conditions, file e40f7b87-6356-afca-e053-6605fe0aeaf2
|
772
|
|
Oscillating droplet evaporation modelling for spray combustion simulation, file e40f7b84-1ddf-afca-e053-6605fe0aeaf2
|
769
|
|
Drop impacts in pools: a comparison between high speed imaging and numerical simulations, file e40f7b84-07e6-afca-e053-6605fe0aeaf2
|
717
|
|
Proceedings of the DIPSI Workshop 2012. Droplet Impact Phenomena & Spray Investigations, Bergamo, Italy, 18th may 2012, file e40f7b85-3e9a-afca-e053-6605fe0aeaf2
|
612
|
|
Direct numerical simulation of primary break-up in swirling liquid jet, file e40f7b86-1c37-afca-e053-6605fe0aeaf2
|
486
|
|
Experimental and numerical analysis of the single droplet impact onto stationary ones, file e40f7b84-1de4-afca-e053-6605fe0aeaf2
|
412
|
|
An evaporation model for oscillating spheroidal drops, file e40f7b84-5d17-afca-e053-6605fe0aeaf2
|
384
|
|
A novel vaporisation model for a single-component drop in high temperature air streams, file e40f7b84-47fb-afca-e053-6605fe0aeaf2
|
379
|
|
Comparison Between Molar-And Mass-Based Approaches to Drop Evaporation Modelling, file e40f7b86-1255-afca-e053-6605fe0aeaf2
|
364
|
|
Proceedings of the DIPSI Workshop 2018. Droplet Impact Phenomena & Spray Investigations, file e40f7b87-b8e8-afca-e053-6605fe0aeaf2
|
300
|
|
Mathematical Modelling of Heating and Evaporation of a Spheroidal Droplet, file e40f7b86-128c-afca-e053-6605fe0aeaf2
|
296
|
|
Proceedings of the DIPSI Workshop 2022: Droplet Impact Phenomena & Spray Investigations, Bergamo, Italy, 1st July 2022, file f4505ce2-5c54-4095-aacb-a138e7be33ad
|
226
|
|
Proceedings of the DIPSI Workshop 2019: Droplet Impact Phenomena & Spray Investigations, Bergamo, Italy, 17th May 2019, file e40f7b88-c799-afca-e053-6605fe0aeaf2
|
215
|
|
Modelling of heat and mass transfer from spheroidal drops with general non-uniform Dirichlet boundary conditions, file e40f7b87-a74f-afca-e053-6605fe0aeaf2
|
213
|
|
Numerical simulations of internal flow in an aircraft engine pressure swirl atomizer, file e40f7b8a-43f9-afca-e053-6605fe0aeaf2
|
193
|
|
Water drop impact into a deep pool: influence of the liquid pool temperature, file e40f7b86-15a4-afca-e053-6605fe0aeaf2
|
181
|
|
Direct numerical simulation of conical swirled jet primary break-up, file e40f7b86-1991-afca-e053-6605fe0aeaf2
|
165
|
|
Moving boundary and time-dependent effects on mass transfer from a spherical droplet evaporating in gaseous environment, file e40f7b86-183d-afca-e053-6605fe0aeaf2
|
149
|
|
Modelling the evaporation of a multicomponent ellipsoidal drop, file e40f7b86-16b6-afca-e053-6605fe0aeaf2
|
127
|
|
Effect of local surface curvature on heating and evaporation of deformed droplets, file e40f7b87-a74d-afca-e053-6605fe0aeaf2
|
123
|
|
The Effect of Temperature Dependence of Density and Mass Diffusion Coefficient on the Mass Transport From a Drop Evaporating in Hot Gaseous Environment, file e40f7b86-1259-afca-e053-6605fe0aeaf2
|
110
|
|
Modelling the effect of variable density and diffusion coefficient on heat and mass transfer from a single component spherical drop evaporating in high temperature air streams, file e40f7b87-529d-afca-e053-6605fe0aeaf2
|
80
|
|
A multi-component drop evaporation model based on analytical solution of Stefan-Maxwell equations, file e40f7b8a-0b9a-afca-e053-6605fe0aeaf2
|
75
|
|
A novel formulation of multi-component drop evaporation models for spray applications, file e40f7b8a-0b99-afca-e053-6605fe0aeaf2
|
72
|
|
"Droplet Interaction Technologies" (DROPIT): Selected Results of the International Research Training Group GRK 2160, file e40f7b8a-abdc-afca-e053-6605fe0aeaf2
|
68
|
|
One-dimensional analytical approach to modelling evaporation and heating of deformed drops, file e40f7b8a-5349-afca-e053-6605fe0aeaf2
|
66
|
|
Direct Numerical Simulations of Oscillating Liquid Droplets: a Method to Extract Shape Characteristics, file e40f7b88-cd13-afca-e053-6605fe0aeaf2
|
62
|
|
Mathematical modelling of heating and evaporation of a spheroidal droplet, file e40f7b8a-0247-afca-e053-6605fe0aeaf2
|
61
|
|
An analytical model of heat and mass transfer from liquid drops with temperature dependence of gas thermo-physical properties, file e40f7b8a-286a-afca-e053-6605fe0aeaf2
|
61
|
|
Variable gas density effects on transport from interacting evaporating spherical drops, file e40f7b8a-3980-afca-e053-6605fe0aeaf2
|
50
|
|
Effect of temperature dependence of gas thermo-physical properties on analytical modelling of drop heating and evaporation, file e40f7b88-ae27-afca-e053-6605fe0aeaf2
|
48
|
|
Analytical modelling of heating and evaporation of drop clouds with temperature dependent gas properties, file e40f7b88-cd0f-afca-e053-6605fe0aeaf2
|
46
|
|
On molar- and mass-based approaches to single component drop evaporation modelling, file e40f7b8a-3981-afca-e053-6605fe0aeaf2
|
42
|
|
The International Research Training Group "Droplet Interaction Technologies" (DROPIT): Selected Results, file e40f7b88-cd11-afca-e053-6605fe0aeaf2
|
35
|
|
Evaporation of an oscillating drop, file a2496003-7623-4f9b-91a9-2bb5814e2d38
|
13
|
|
Proceedings of the DIPSI Workshop 2023: Droplet Impact Phenomena & Spray Investigations, Bergamo, Italy, 16th June 2023, file 33142876-d571-4e4d-adbb-90b25cb99fb3
|
10
|
|
Drop-formed vortex rings: comparative study of fluid flow below impacting single and double drops into deep pools, file e40f7b84-3a65-afca-e053-6605fe0aeaf2
|
6
|
|
Effect of wall effusivity on thermally induced secondary atomization of single drop impacting onto a tilted surface, file e40f7b85-980d-afca-e053-6605fe0aeaf2
|
5
|
|
Single and multiple drop impact onto heated surfaces, file e40f7b85-9dd4-afca-e053-6605fe0aeaf2
|
5
|
|
Moving Boundary Problem for Heating and Evaporation of a Spherical Drop, file e40f7b87-52a3-afca-e053-6605fe0aeaf2
|
5
|
|
Preface [to Droplet Interactions and Spray Processes], file e40f7b89-063c-afca-e053-6605fe0aeaf2
|
5
|
|
Crater evolution after the impact of a drop onto a semi-infinite liquid target, file e40f7b84-0bee-afca-e053-6605fe0aeaf2
|
3
|
|
Modelling of spray formation in a pressure swirl atomiser for aircraft engines, file e40f7b84-4b12-afca-e053-6605fe0aeaf2
|
3
|
|
Modelling of internal nozzle flow in high pressure water mist injector for fire suppression applications, file e40f7b88-9199-afca-e053-6605fe0aeaf2
|
3
|
|
Selected Results of the International Research Training Group (GRK 2160/1) "Droplet Interaction Technologies" (DROPIT), file e40f7b88-919b-afca-e053-6605fe0aeaf2
|
3
|
|
Multiple drops impact onto a liquid film: Direct numerical simulation and experimental validation, file e40f7b89-56f3-afca-e053-6605fe0aeaf2
|
3
|
|
Experimental investigation of the mean and turbulent flow characteristics at the exit of automotive vented brake discs, file 168532db-3928-4e1b-9597-e0e36ef8a888
|
2
|
|
Droplet heating and evaporation: A new approach to the modeling of the processes, file 35224fdf-a288-4a97-8003-7fb40c4e8fb2
|
2
|
|
Analytical solutions for modelling the evaporation of sessile drops, file 5559f820-3f43-4b97-ba4c-df9da121b537
|
2
|
|
Single droplet impacts onto deposited drops. Numerical analysis and comparison, file e40f7b84-10f1-afca-e053-6605fe0aeaf2
|
2
|
|
A novel formulation of multi-component drop evaporation models for spray applications, file e40f7b84-fca8-afca-e053-6605fe0aeaf2
|
2
|
|
Single-drop empirical models for spray impact on solid walls, file e40f7b85-990c-afca-e053-6605fe0aeaf2
|
2
|
|
Secondary atomization of water and isooctane drop impacts onto tilted heated surfaces, file e40f7b85-9b3a-afca-e053-6605fe0aeaf2
|
2
|
|
Impact of single and multiple drop array on a liquid film, file e40f7b85-9dd6-afca-e053-6605fe0aeaf2
|
2
|
|
LDV characterization and visualization of the liquid velocity field underneath an impacting drop in isothermal conditions, file e40f7b85-9f1d-afca-e053-6605fe0aeaf2
|
2
|
|
Secondary atomization produced by single drop vertical impact onto heated surfaces, file e40f7b85-a0f7-afca-e053-6605fe0aeaf2
|
2
|
|
Drop impact onto a deep pool: study of the crater evolution, file e40f7b85-a317-afca-e053-6605fe0aeaf2
|
2
|
|
Thermally induced secondary drop atomisation by single drop impact onto heated surfaces, file e40f7b85-a31f-afca-e053-6605fe0aeaf2
|
2
|
|
Experimental study of vortices and cavities from single and double drop impacts onto deep pools, file e40f7b85-a993-afca-e053-6605fe0aeaf2
|
2
|
|
Mathematical modelling of heating and evaporation of a spheroidal droplet, file e40f7b85-cd08-afca-e053-6605fe0aeaf2
|
2
|
|
Numerical simulations of internal flow in an aircraft engine pressure swirl atomizer, file e40f7b85-d2c2-afca-e053-6605fe0aeaf2
|
2
|
|
DNS investigation of the primary breakup in a conical swirled jet, file e40f7b86-1882-afca-e053-6605fe0aeaf2
|
2
|
|
Drop Heating and Evaporation: Analytical Solutions in Curvilinear Coordinate Systems, file e40f7b89-7587-afca-e053-6605fe0aeaf2
|
2
|
|
Numerical analysis of regime stability of a water mist pressure swirl atomizer, file e40f7b8a-60fb-afca-e053-6605fe0aeaf2
|
2
|
|
Evaporation of drops on superhydrophobic surfaces: The effect of deformation due to the gravitational field, file 0bef0113-6053-409f-ab21-fe9a64ba65ca
|
1
|
|
A model of droplet evaporation: New mathematical developments, file 31ebde8c-9dd8-43db-adaa-b711ce150df9
|
1
|
|
Experimental investigation of the aero-thermal characteristics at the exit of an automotive vented brake disc, file 3cb60817-675e-4634-8b19-8e6b783b3886
|
1
|
|
Analytical modeling of the evaporation of sessile drop linear arrays, file 54b5b4de-667f-4234-8ee8-25df6ecce8e1
|
1
|
|
Modelling of spray characteristics from multi-hole injectors for direct-injection gasoline engines, file 76a6e5ad-42bc-4b32-a06b-4300949197f9
|
1
|
|
Modeling the evaporation of sessile drops deformed by gravity on hydrophilic and hydrophobic substrates, file bb389be5-2baa-4fe9-9fd1-9038f97e829d
|
1
|
|
Modeling the evaporation of multicomponent drops of general shape on the basis of an analytical solution to the Stefan-Maxwell equations, file bcf57577-49b2-4095-8f01-7e7c46b68490
|
1
|
|
Effect of wall effusivity on termally induced secondary atomisation of single drop impacting onto a tilted surface, file e1b41270-d727-4247-85bb-8667ee760416
|
1
|
|
Quantitative optical techniques for dense sprays investigation: a survey, file e40f7b84-10ff-afca-e053-6605fe0aeaf2
|
1
|
|
A multi-component drop evaporation model based on analytical solution of Stefan-Maxwell equations, file e40f7b84-fcab-afca-e053-6605fe0aeaf2
|
1
|
|
Effects of wall effusivity on secondary droplet atomisation from single and multiple drop impact onto heated surfaces, file e40f7b85-9f6f-afca-e053-6605fe0aeaf2
|
1
|
|
Drop array impacts on heated surfaces: secondary atomization characteristics, file e40f7b85-9f71-afca-e053-6605fe0aeaf2
|
1
|
|
Device and method for drops generation, file e40f7b85-9fd2-afca-e053-6605fe0aeaf2
|
1
|
|
Secondary atomisation of drop impactions onto heated surfaces, file e40f7b85-9fd8-afca-e053-6605fe0aeaf2
|
1
|
|
Splashing characteristics of multiple and single drop impacts onto a thin liquid film, file e40f7b85-a0f3-afca-e053-6605fe0aeaf2
|
1
|
|
Secondary droplet atomization from single drop impact on heated surfaces, file e40f7b85-a12f-afca-e053-6605fe0aeaf2
|
1
|
|
LDV characterization of the liquid velocity field underneath an impacting drop, file e40f7b85-a319-afca-e053-6605fe0aeaf2
|
1
|
|
Multiple drop impact on heated surface, file e40f7b85-ab56-afca-e053-6605fe0aeaf2
|
1
|
|
On molar- and mass-based approaches to single component drop evaporation modelling, file e40f7b85-d18d-afca-e053-6605fe0aeaf2
|
1
|
|
One-dimensional analytical approach to modelling evaporation and heating of deformed drops, file e40f7b85-d4c7-afca-e053-6605fe0aeaf2
|
1
|
|
Modelling of heat and mass transfer from spheroidal drops with non-uniform surface temperature, file e40f7b87-9996-afca-e053-6605fe0aeaf2
|
1
|
|
Modelling of liquid drop heating and evaporation: the effect of drop shrinking, file e40f7b87-9998-afca-e053-6605fe0aeaf2
|
1
|
|
Variable gas density effects on transport from interacting evaporating spherical drops, file e40f7b88-4455-afca-e053-6605fe0aeaf2
|
1
|
|
An analytical model of heat and mass transfer from liquid drops with temperature dependence of gas thermo-physical properties, file e40f7b88-919d-afca-e053-6605fe0aeaf2
|
1
|
|
An analytical approach to model heating and evaporation of multicomponent ellipsoidal drops, file e40f7b88-919f-afca-e053-6605fe0aeaf2
|
1
|
|
The Influence of Curvature on the Modelling of Droplet Evaporation at Different Scales, file e40f7b89-049c-afca-e053-6605fe0aeaf2
|
1
|
|
On the Measurement of Velocity Field Within Wall-Film During Droplet Impact on It Using High-Speed Micro-PIV, file e40f7b89-0640-afca-e053-6605fe0aeaf2
|
1
|
|
An Analytical Approach to Model the Effect of Evaporation on Oscillation Amplitude of Liquid Drops in Gaseous Environment, file e40f7b89-08d8-afca-e053-6605fe0aeaf2
|
1
|
|
The effect of evaporation on the oscillation frequency of an inviscid liquid drop, file e40f7b89-6f79-afca-e053-6605fe0aeaf2
|
1
|
|
Analytical modelling of drop heating and evaporation in drop clouds: Effect of temperature dependent gas properties and cloud shape, file e40f7b89-8c0f-afca-e053-6605fe0aeaf2
|
1
|
|
Effect of moving boundaries on the modeling of heat and mass transfer from an evaporating spherical drop, file e40f7b8a-376b-afca-e053-6605fe0aeaf2
|
1
|
|
An analytical model for the evaporation of multi-component spheroidal drops based on Stefan–Maxwell equations, file e40f7b8a-eb04-afca-e053-6605fe0aeaf2
|
1
|
|
null, file e40f7b8b-0eeb-afca-e053-6605fe0aeaf2
|
1
|
| Totale |
9.025 |