Add to ORKGNMR measurements on core samples saturated with brine returns valuable information on the porous structure of the rock core. Monitoring a single fluid component in a relaxation experiment reflects the pore size distribution and thus the degree of sorting of the porous rock. The basic assumptions are that the mobility of the component confined in the porous rock is of such a value that a small fraction of the probing molecules experience the surfaces of the pores and that the surface relaxation strength is fairly independent of pore size. Then one may combine diffusion measurements at short observation times returning a value for the average surface to volume ratio with ordinary relaxation time measurements to obtain an absolute pore size di...
In this work, the aim is to assess the relative import ance of the impact of diffusio...
This thesis forms part of a continuing programme of research to investigate the application of NMR t...
ABSTRACT Nuclear magnetic resonance ͑NMR͒ relaxation times of geologic materials are closely related...
NMR measurements on core samples saturated with brine returns valuable information on the porous str...
ABSTRACT By Nuclear Magnetic Resonance (NMR) measurements of relaxation and diffusion at a predefine...
Pore-pore relaxation exchange experiments are a recent development and hold great promise to spectra...
¹H NMR techniques have gained extensive acceptance in petrophysics for the evaluation of fluid-satur...
Nuclear magnetic resonance (NMR) measurements are widely used to quantify storage and fluid-transpor...
NMR uses a permanent magnet to polarize hydrogen nuclei in water or other fluids. The dephasing time...
The conventional interpretation of nuclear magnetic resonance (NMR) measurements on fluid saturated ...
Nuclear magnetic resonance (NMR) relaxation time measurements are affected by pore structure and sat...
Advanced nuclear magnetic resonance (NMR) imaging methodologies have been developed to determine por...
Two often used permeability models, which are based on logarithmic mean of relaxation time distribut...
A carefully chosen set of experimental techniques applied to porous media characterization provides...
textNuclear magnetic resonance (NMR) has been used as a common and powerful tool for petrophysical i...
In this work, the aim is to assess the relative import ance of the impact of diffusio...
This thesis forms part of a continuing programme of research to investigate the application of NMR t...
ABSTRACT Nuclear magnetic resonance ͑NMR͒ relaxation times of geologic materials are closely related...
NMR measurements on core samples saturated with brine returns valuable information on the porous str...
ABSTRACT By Nuclear Magnetic Resonance (NMR) measurements of relaxation and diffusion at a predefine...
Pore-pore relaxation exchange experiments are a recent development and hold great promise to spectra...
¹H NMR techniques have gained extensive acceptance in petrophysics for the evaluation of fluid-satur...
Nuclear magnetic resonance (NMR) measurements are widely used to quantify storage and fluid-transpor...
NMR uses a permanent magnet to polarize hydrogen nuclei in water or other fluids. The dephasing time...
The conventional interpretation of nuclear magnetic resonance (NMR) measurements on fluid saturated ...
Nuclear magnetic resonance (NMR) relaxation time measurements are affected by pore structure and sat...
Advanced nuclear magnetic resonance (NMR) imaging methodologies have been developed to determine por...
Two often used permeability models, which are based on logarithmic mean of relaxation time distribut...
A carefully chosen set of experimental techniques applied to porous media characterization provides...
textNuclear magnetic resonance (NMR) has been used as a common and powerful tool for petrophysical i...
In this work, the aim is to assess the relative import ance of the impact of diffusio...
This thesis forms part of a continuing programme of research to investigate the application of NMR t...
ABSTRACT Nuclear magnetic resonance ͑NMR͒ relaxation times of geologic materials are closely related...