Relative permeability of tight hydrocarbon systems: An experimental study

•Improvement of the Dacy method for measuring relative permeability in tight rocks.•Comparison of different relative permeability measurement techniques (pros/cons).•Experimental evaluation of geological/operational controls on relative permeability.•Proof-of-concept tests for evaluating gas/liquid effective dispersion coefficient.•Liquid/liquid relative permeability measurements in tight (microdarcy) siltstones. Relative permeability is notoriously difficult to measure in the laboratory for low-permeability rocks with permeability values in the nanodarcy/microdarcy range. The objectives of this work are to 1) implement a series of laboratory methods for relative permeability estimation in tight hydrocarbon formations and 2) examine the impact of fluid saturation and operational (e.g. pore pressure, differential pressure) controls on relative permeability. Seven tight siltstone/sandstone and organic/clay-rich core plugs, covering a broad range of helium porosity (2.9–13.8%) and slip-corrected gas (N2, CH4) permeability values (1.5·10−5–1.6·10−1 md), were analyzed in this study. Two direct methods for measuring gas/liquid (CH4,N2/oil) relative permeability data are investigated including a modified version of the Dacy method and the “gas breakthrough” technique, tailored to high- (˃0.001 md) and low-permeability rocks (