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121 to 130 of 484 Results

Ca=10-4,M=0.2.tar Apr 18, 2024 - Primary drainage experiments and fractal dimensions TAR Archive - 485.1 MB - MD5: 014771638b19d9ecb1afab51c17e97ce Capillary number for the invading phase equal to 10-4. Viscosity ratio between the invading and the defending phase equal to 0.2.
Ca=10-4,M=10.tar Apr 18, 2024 - Primary drainage experiments and fractal dimensions TAR Archive - 5.0 GB - MD5: 7b8cf6930230bfcf0b6fba72c563cd06 Capillary number for the invading phase equal to 10-4. Viscosity ratio between the invading and the defending phase equal to 10.
Ca=10-4,M=1.tar Apr 18, 2024 - Primary drainage experiments and fractal dimensions TAR Archive - 2.3 GB - MD5: 40b770e498dea4c40e1d7d2ee385528b Capillary number for the invading phase equal to 10-4. Viscosity ratio between the invading and the defending phase equal to 1.
Ca=10-5,M=0.2.tar Apr 18, 2024 - Primary drainage experiments and fractal dimensions TAR Archive - 1.5 GB - MD5: 8a800605b22541c778d28fc95562ee2e Capillary number for the invading phase equal to 10-5. Viscosity ratio between the invading and the defending phase equal to 0.2.
Ca=10-5,M=10.tar Apr 18, 2024 - Primary drainage experiments and fractal dimensions TAR Archive - 6.4 GB - MD5: 4b8b4022b5b8f70610d1c6158c77984b Capillary number for the invading phase equal to 10-5. Viscosity ratio between the invading and the defending phase equal to 10.
Ca=10-5,M=1.tar Apr 18, 2024 - Primary drainage experiments and fractal dimensions TAR Archive - 2.3 GB - MD5: 6f605e1b5133b749f0d4923fceb93687 Capillary number for the invading phase equal to 10-5. Viscosity ratio between the invading and the defending phase equal to 1.
Pressure and volumetric flux measurements intended to scale relative permeability under steady state, co-flow conditions, in a PDMS micromodel Sep 12, 2023 - Publication: Microfluidic experiments Karadimitriou, Nikolaos; Steeb, Holger; Valavanides, Marios, 2022, "Pressure and volumetric flux measurements intended to scale relative permeability under steady state, co-flow conditions, in a PDMS micromodel", https://doi.org/10.18419/DARUS-2816, DaRUS, V2 The current repository contains raw data collected during a systematic laboratory study, examining the flow rate dependency of steady-state, co-injection of two-immiscible fluids within a microfluidic pore network model. The study is presented in the paper by Karadimitriou et al., 2023. The two fluids were the wetting phase (WP), FluorinertTM, FC77...
FC770_k0736_Ca479e-5_20220209_snpsts0001-1181.mp4 Sep 12, 2023 - Pressure and volumetric flux measurements intended to scale relative permeability under steady state, co-flow conditions, in a PDMS micromodel MPEG-4 Video - 36.3 MB - MD5: 890fc0239d6ccf279ba5bea92d4d9d3a Visual example of the co-flow of the wetting and the non-wetting phase in the pore space.
Numerical investigation results of 3D porous structures using stochastic reconstruction algorithm Sep 6, 2023 - Publication: Development of stochastically reconstructed 3D porous media micromodels using additive manufacturing: numerical and experimental validation Lee, Dongwon; Ruf, Matthias; Yiotis, Andreas; Steeb, Holger, 2023, "Numerical investigation results of 3D porous structures using stochastic reconstruction algorithm", https://doi.org/10.18419/DARUS-3244, DaRUS, V1 This dataset contains the outcomes of conducted numerical simulations, rooted in designs generated using a stochastic algorithm devised by Quiblie (1984), Adler et al. (1990), and Hyman et al. (2014). Moreover, the investigation employed Lattice Boltzmann simulation, as used in previous study by Psihogios et al. (2007), where the simulations were f...
designs_fixed_lambda.7z Sep 6, 2023 - Numerical investigation results of 3D porous structures using stochastic reconstruction algorithm 7Z Archive - 65.0 MB - MD5: d8a1138be37f2ed3b66e90fff018d70b Designed domains with fixed_lambda (porosity : 0.45, lambda : 45)

Ca=10-4,M=0.2.tar

Apr 18, 2024 - Primary drainage experiments and fractal dimensions

TAR Archive - 485.1 MB -

Capillary number for the invading phase equal to 10-4. Viscosity ratio between the invading and the defending phase equal to 0.2.

Ca=10-4,M=10.tar

Apr 18, 2024 - Primary drainage experiments and fractal dimensions

TAR Archive - 5.0 GB -

Capillary number for the invading phase equal to 10-4. Viscosity ratio between the invading and the defending phase equal to 10.

Ca=10-4,M=1.tar

Apr 18, 2024 - Primary drainage experiments and fractal dimensions

TAR Archive - 2.3 GB -

Capillary number for the invading phase equal to 10-4. Viscosity ratio between the invading and the defending phase equal to 1.

Ca=10-5,M=0.2.tar

Apr 18, 2024 - Primary drainage experiments and fractal dimensions

TAR Archive - 1.5 GB -

Capillary number for the invading phase equal to 10-5. Viscosity ratio between the invading and the defending phase equal to 0.2.

Ca=10-5,M=10.tar

Apr 18, 2024 - Primary drainage experiments and fractal dimensions

TAR Archive - 6.4 GB -

Capillary number for the invading phase equal to 10-5. Viscosity ratio between the invading and the defending phase equal to 10.

Ca=10-5,M=1.tar

Apr 18, 2024 - Primary drainage experiments and fractal dimensions

TAR Archive - 2.3 GB -

Capillary number for the invading phase equal to 10-5. Viscosity ratio between the invading and the defending phase equal to 1.

Pressure and volumetric flux measurements intended to scale relative permeability under steady state, co-flow conditions, in a PDMS micromodel

Sep 12, 2023 - Publication: Microfluidic experiments

Karadimitriou, Nikolaos; Steeb, Holger; Valavanides, Marios, 2022, "Pressure and volumetric flux measurements intended to scale relative permeability under steady state, co-flow conditions, in a PDMS micromodel", https://doi.org/10.18419/DARUS-2816, DaRUS, V2

The current repository contains raw data collected during a systematic laboratory study, examining the flow rate dependency of steady-state, co-injection of two-immiscible fluids within a microfluidic pore network model. The study is presented in the paper by Karadimitriou et al., 2023. The two fluids were the wetting phase (WP), FluorinertTM, FC77...

FC770_k0736_Ca479e-5_20220209_snpsts0001-1181.mp4

Sep 12, 2023 - Pressure and volumetric flux measurements intended to scale relative permeability under steady state, co-flow conditions, in a PDMS micromodel

MPEG-4 Video - 36.3 MB -

Visual example of the co-flow of the wetting and the non-wetting phase in the pore space.

Numerical investigation results of 3D porous structures using stochastic reconstruction algorithm

Sep 6, 2023 - Publication: Development of stochastically reconstructed 3D porous media micromodels using additive manufacturing: numerical and experimental validation

Lee, Dongwon; Ruf, Matthias; Yiotis, Andreas; Steeb, Holger, 2023, "Numerical investigation results of 3D porous structures using stochastic reconstruction algorithm", https://doi.org/10.18419/DARUS-3244, DaRUS, V1

This dataset contains the outcomes of conducted numerical simulations, rooted in designs generated using a stochastic algorithm devised by Quiblie (1984), Adler et al. (1990), and Hyman et al. (2014). Moreover, the investigation employed Lattice Boltzmann simulation, as used in previous study by Psihogios et al. (2007), where the simulations were f...

designs_fixed_lambda.7z

Sep 6, 2023 - Numerical investigation results of 3D porous structures using stochastic reconstruction algorithm

7Z Archive - 65.0 MB -

Designed domains with fixed_lambda (porosity : 0.45, lambda : 45)

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