Nome |
# |
Blending of miscible liquids with different densities and viscosities in static mixers, file e1dcb339-41cb-7715-e053-1705fe0a6cc9
|
93
|
Gas hold-up distribution and mixing time in gas-liquid stirred tanks, file e1dcb339-79ea-7715-e053-1705fe0a6cc9
|
92
|
Liquid mixing dynamics in slurry stirred tanks based on electrical resistance tomography, file e1dcb339-5f46-7715-e053-1705fe0a6cc9
|
64
|
Mass transfer in dilute solid−liquid stirred tanks, file e1dcb339-2f5c-7715-e053-1705fe0a6cc9
|
56
|
Effect of turbulent kinetic energy dissipation rate on the prediction of droplet size distribution in stirred tanks, file e1dcb336-822b-7715-e053-1705fe0a6cc9
|
51
|
Hydrodynamics, power consumption and bubble size distribution in gas-liquid stirred tanks, file daae7ea6-5997-4a93-86f0-30b99cb2fc50
|
33
|
Two-fluids RANS predictions of gas cavities, power consumption, mixing time and oxygen transfer rate in an aerated fermenter scale-down stirred with multiple impellers, file e1dcb336-c9f2-7715-e053-1705fe0a6cc9
|
32
|
Analysis of immiscible liquid-liquid mixing in stirred tanks by Electrical Resistance Tomography, file fb4c61b4-7d6a-41af-9b28-192e7144786b
|
32
|
Analyis of liquid mixing and solid dissolution for pharmaceutical manufacturing in stirred tanks, file e1dcb333-9914-7715-e053-1705fe0a6cc9
|
29
|
null, file e1dcb336-1691-7715-e053-1705fe0a6cc9
|
26
|
A PBM-Based Procedure for the CFD Simulation of Gas–Liquid Mixing with Compact Inline Static Mixers in Pipelines, file 64ba6646-cef3-4d82-9603-3bc86fd8f4b8
|
21
|
Large blade impeller application for turbulent liquid–liquid and solid–liquid mixing, file 52067633-8f81-43ca-8871-f44d3d1c7ff4
|
19
|
Liquid mixing time and gas distribution in aerated multiple-impeller stirred tanks, file c6a54bf7-03d2-49cb-8f18-ff70ff76fb6b
|
19
|
Prediction of gas cavities size and structure and their effect on the power consumption in a gas-liquid stirred tank by means of a two-fluid RANS model, file 29b7fba8-e968-463f-b880-1a5d186d4dc5
|
16
|
How to evaluate the mass transfer resistances in dense solid–liquid suspensions, file bce80daa-053e-4d17-9999-46abf5e7a651
|
15
|
CFD prediction of gas-filled cavity structures in aerated vessels stirred with multiple rushton turbines, file e1dcb338-482f-7715-e053-1705fe0a6cc9
|
15
|
A New Approach to Evaluate 3D Flow Fields Using an Off-Axis 2D PIV System: Investigation of a Tubular Reactor Equipped with Kenics Static Mixers, file 519f8025-3a0d-4ae8-8aa3-d7f617c4d5e0
|
12
|
null, file e1dcb334-4974-7715-e053-1705fe0a6cc9
|
12
|
Mixing in Biogas Fermenters: Experimental Characterization of a Scale-down Geometry, file b44b5274-1c91-4f22-8d67-d3e73b7d5882
|
11
|
Towards real time monitoring of reacting species and pH coupling electrical resistance tomography and machine learning methodologies, file 95d01da7-3fa7-4c96-8693-33de879e64af
|
10
|
Applicability of electrical resistance tomography to the analysis of fluid distribution in haemodialysis modules, file d1b72120-6a40-4f3d-9f87-5c69c7ad87f3
|
10
|
Numerical and Experimental Analysis of the Daughter Distribution in Liquid‐Liquid Stirred Tanks, file e1dcb338-4ad9-7715-e053-1705fe0a6cc9
|
8
|
Simultaneous measurements of liquid velocity and tracer concentration in a continuous flow stirred tank, file e695cbda-07ce-4c82-aed8-8a27259a4346
|
8
|
Modeling the effects of substrate fluctuations on the maintenance rate in bioreactors with a probabilistic approach, file 1ea1da02-0e15-4c9e-a3f4-7df5acef976f
|
7
|
Solid Dissolution and Liquid Mixing in Turbulent Stirred Tanks, file e1dcb334-3a18-7715-e053-1705fe0a6cc9
|
7
|
null, file e1dcb335-1e38-7715-e053-1705fe0a6cc9
|
7
|
ANALYSIS OF LIQUID BLENDING DYNAMICS WITH MAXBLEND IMPELLERS BY ELECTRICAL RESISTANCE TOMOGRAPHY, file e1dcb338-efdf-7715-e053-1705fe0a6cc9
|
7
|
Applicability of electrical resistance tomography to the analysis of fluid distribution in haemodialysis modules, file e1dcb336-4c19-7715-e053-1705fe0a6cc9
|
6
|
Hydrodynamics, power consumption and bubble size distribution in gas-liquid stirred tanks, file 31320f83-9fab-4dab-826f-2beb7acee976
|
4
|
Particles dissolution and liquid mixing dynamics by Electrical Resistance Tomography, file 58fd56b5-3c0d-497a-a042-8a8fea13a5dd
|
4
|
Solid distribution and mixing time in stirred tanks. The case of floating particles., file e1dcb32e-d2f7-7715-e053-1705fe0a6cc9
|
4
|
A New Approach to Evaluate 3D Flow Fields Using an Off-Axis 2D PIV System: Investigation of a Tubular Reactor Equipped with Kenics Static Mixers, file 4ba057da-fe65-46e7-86d8-bb42c227de16
|
3
|
Numerical simulations of a compact inline gas–liquid separator: A comparison between RANS and a hybrid LES-RANS approach, file 6655bcea-eaf6-4a60-b4c7-c1ed80219544
|
3
|
Simultaneous measurements of liquid velocity and tracer concentration in a continuous flow stirred tank, file e1dcb336-4c17-7715-e053-1705fe0a6cc9
|
3
|
Hydrodynamics and Scale-up of Anaerobic Stirred Digesters, file 20833fb6-bd5a-4a3c-baac-443a3ec7d889
|
2
|
In-line monitoring of mixing performance for smart processes in tubular reactors, file 3081a85f-33b1-4e97-8d55-6f8ee53f5af4
|
2
|
Impact of Curved-Blade Impellers on Gas Holdup and Liquid Homogenization Dynamics in Stirred Tanks, file 32cc697a-9556-4a84-888c-02a6b40b18cc
|
2
|
Fluid Dynamics and Power Consumptions in a Single Use Stirred Tank Adopted in the Pharmaceutical Industry, file 4f1c69e3-1363-4053-9361-cb5daad4fba6
|
2
|
Fluid dynamics characterization of a stirred model bio-methanation digester, file e1dcb32b-d194-7715-e053-1705fe0a6cc9
|
2
|
Effect of a continuous feed on the fluid-dynamics of a mechanically stirred tank, file e1dcb32d-c360-7715-e053-1705fe0a6cc9
|
2
|
Prediction of fluid dynamic instabilities of low liquid height-to-tank diameter ratio stirred tanks, file e1dcb32d-cb3e-7715-e053-1705fe0a6cc9
|
2
|
Gas hold-up distribution and mixing time in gas-liquid stirred tanks, file e1dcb32d-d6ba-7715-e053-1705fe0a6cc9
|
2
|
Liquid mixing dynamics in slurry stirred tanks based on electrical resistance tomography, file e1dcb32e-73fc-7715-e053-1705fe0a6cc9
|
2
|
Modelling of biohydrogen production in stirred fermenters by Computational Fluid Dynamics, file e1dcb337-5794-7715-e053-1705fe0a6cc9
|
2
|
Analysis of immiscible liquid-liquid mixing in stirred tanks by Electrical Resistance Tomography, file 2de07028-3d61-42ac-acba-7e36e8b2b4e3
|
1
|
Power Consumption and Fluid Mixing in a Scale-Down Geometry of a Stirred Digester for Biogas Production, file 30c918dd-5958-4e04-8b26-f20fada63279
|
1
|
Validation of a procedure for the numerical simulations of gas–liquid stirred tanks by means of a computational fluid dynamics approach, file 59910b4e-a713-4bdd-9e39-2180a34c8b74
|
1
|
In-line monitoring of mixing performance for smart processes in tubular reactors, file 8b768617-3cbf-45bc-a820-8d5033086a86
|
1
|
PREDICTION OF TURBULENT FLUID MIXING IN CORRUGATED STATIC MIXERS, file e1dcb32d-24f8-7715-e053-1705fe0a6cc9
|
1
|
Flow field and homogenization time assessment in continuously-fed stirred tanks, file e1dcb32d-c35c-7715-e053-1705fe0a6cc9
|
1
|
Blending of miscible liquids with different densities and viscosities in static mixers, file e1dcb32d-cada-7715-e053-1705fe0a6cc9
|
1
|
FLUID DYNAMIC CHARACTERIZATION OF THE TWIN_P HIGHPERFORMANCES STATIC MIXER, file e1dcb32d-cbb3-7715-e053-1705fe0a6cc9
|
1
|
Experimental analysis of gas-liquid dispersion in mechanically stirred tank by means of quantitative Electrical Resistance Tomography, file e1dcb32e-d5fc-7715-e053-1705fe0a6cc9
|
1
|
MODELLING OF BIO-HYDROGEN PRODUCTION IN STIRRED FERMENTERS BY COMPUTATIONAL FLUID DYNAMICS, file e1dcb32f-e89d-7715-e053-1705fe0a6cc9
|
1
|
Mass transfer in dilute solid−liquid stirred tanks, file e1dcb331-5523-7715-e053-1705fe0a6cc9
|
1
|
Predictions of dense solid-liquid stirred tanks by RANS-based two fluid model simulations, file e1dcb331-df88-7715-e053-1705fe0a6cc9
|
1
|
How to evaluate the mass transfer resistances in dense solid–liquid suspensions, file e1dcb337-5ec5-7715-e053-1705fe0a6cc9
|
1
|
RANS-based predictions of dense solid–liquid suspensions in turbulent stirred tanks, file e1dcb337-7d07-7715-e053-1705fe0a6cc9
|
1
|
Towards real time monitoring of reacting species and pH coupling electrical resistance tomography and machine learning methodologies, file e1dcb337-8422-7715-e053-1705fe0a6cc9
|
1
|
null, file e1dcb337-b612-7715-e053-1705fe0a6cc9
|
1
|
Totale |
775 |