Add to ORKGABSTRACT By Nuclear Magnetic Resonance (NMR) measurements of relaxation and diffusion at a predefined observation time in 100 % brine saturated rock core samples it is possible to probe the connectivity between the pores within the sample. By plotting the observation time dependent diffusion coefficients as a function of the surface-to-volume ratio characteristic for each sample, it is possible to compare the connectivity between rock core samples
Three different mobile Nuclear Magnetic Resonance (NMR) core-scanners were used to measure porosity ...
A new method of studying pore connectivity in meso- and macroporous materials is proposed on the bas...
Pore length scales and pore surface relaxivities of sandstone were studied on a 2 MHz Rock Core Anal...
NMR measurements on core samples saturated with brine returns valuable information on the porous str...
¹H NMR techniques have gained extensive acceptance in petrophysics for the evaluation of fluid-satur...
This thesis forms part of a continuing programme of research to investigate the application of NMR t...
This thesis considers the relationship between NMR relaxation-diffusion responses and permeability f...
Two often used permeability models, which are based on logarithmic mean of relaxation time distribut...
The conventional interpretation of nuclear magnetic resonance (NMR) measurements on fluid saturated ...
ABSTRACT Nuclear magnetic resonance ͑NMR͒ relaxation times of geologic materials are closely related...
NMR uses a permanent magnet to polarize hydrogen nuclei in water or other fluids. The dephasing time...
Nuclear magnetic resonance (NMR) measurements are widely used to quantify storage and fluid-transpor...
Quantification of the pore geometric properties controlling mass transfer rates in fractured rock aq...
Pore-pore relaxation exchange experiments are a recent development and hold great promise to spectra...
In this work, the aim is to assess the relative import ance of the impact of diffusio...
Three different mobile Nuclear Magnetic Resonance (NMR) core-scanners were used to measure porosity ...
A new method of studying pore connectivity in meso- and macroporous materials is proposed on the bas...
Pore length scales and pore surface relaxivities of sandstone were studied on a 2 MHz Rock Core Anal...
NMR measurements on core samples saturated with brine returns valuable information on the porous str...
¹H NMR techniques have gained extensive acceptance in petrophysics for the evaluation of fluid-satur...
This thesis forms part of a continuing programme of research to investigate the application of NMR t...
This thesis considers the relationship between NMR relaxation-diffusion responses and permeability f...
Two often used permeability models, which are based on logarithmic mean of relaxation time distribut...
The conventional interpretation of nuclear magnetic resonance (NMR) measurements on fluid saturated ...
ABSTRACT Nuclear magnetic resonance ͑NMR͒ relaxation times of geologic materials are closely related...
NMR uses a permanent magnet to polarize hydrogen nuclei in water or other fluids. The dephasing time...
Nuclear magnetic resonance (NMR) measurements are widely used to quantify storage and fluid-transpor...
Quantification of the pore geometric properties controlling mass transfer rates in fractured rock aq...
Pore-pore relaxation exchange experiments are a recent development and hold great promise to spectra...
In this work, the aim is to assess the relative import ance of the impact of diffusio...
Three different mobile Nuclear Magnetic Resonance (NMR) core-scanners were used to measure porosity ...
A new method of studying pore connectivity in meso- and macroporous materials is proposed on the bas...
Pore length scales and pore surface relaxivities of sandstone were studied on a 2 MHz Rock Core Anal...