Comparison of pore size as determined by mercury porosimetry and by miscible displacement experiment
In a rarely quoted paper, Klinkenberg (1957) developed a computational technique for the calculation of pore-size distributions from miscible displacement data. Applying this technique to sandstone, he calculated pore sizes which were considerably smaller, over the entire range of values, than those obtained by mercury intrusion porosimetry. This is a remarkable result because it is well known that mercury intrusion porosimetry measures the size of entry pores which may be either smaller than the rest of the pores or the same size, but can never be bigger than them. Klinkenberg's conclusion that ''the current concept of pore size distribution is not unequivocally defined'', while accurate, does not go as far to explain even qualitatively the reason for the particular type of discrepancy found by him. It is proposed that model of pore structure consisting of an assemblage of straight cylindrical capillaries, used by Klinkenberg, is chiefly responsible for the discrepancy. It is shown that a more realistic model of pore structure, consisting of 3-dimensional networks of cylindrical capillaries with step changes in their diameter, gives a more consistent account of both the results of mercury intrusion porosimetry and miscible displacement. (12 refs.)
- Research Organization:
- Waterloo Univ.
- OSTI ID:
- 6792764
- Journal Information:
- Ind. Eng. Chem. Fundam.; (United States), Vol. 15:2
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
POROSITY
CALCULATION METHODS
SANDSTONES
CAPILLARY FLOW
COMPARATIVE EVALUATIONS
CYLINDERS
MERCURY
MISCIBLE-PHASE DISPLACEMENT
PHYSICAL PROPERTIES
POROSIMETERS
POROUS MATERIALS
TESTING
ELEMENTS
FLUID FLOW
FLUID INJECTION
MATERIALS
MEASURING INSTRUMENTS
METALS
ROCKS
SEDIMENTARY ROCKS
580300* - Mineralogy
Petrology
& Rock Mechanics- (-1989)