Measuring absolute adsorption in porous rocks using oscillatory motions of a spring-mass system

We present an oscillation-based method to measure absolute adsorption, or total gas, contained in porous rocks without and with excess adsorption. Experiments conducted with a macroporous Berea sandstone sample in nitrogen where excess adsorption is negligible show that absolute adsorption can be obtained after the added mass of co-accelerated gas outside the sample is subtracted. In experiments conducted in propane with a crushed Niobrara shale sample with micro-and mesopores, absolute adsorption included significant excess adsorption. After subtracting both the added mass outside the sample and the gas that would be in the sample assuming no excess adsorption existed, estimated excess adsorption of propane is in good agreement with that projected based on capillary condensation of propane in the volume of mesopores. (c) 2022 The Chemical Industry and Engineering Society of China, and Chemical Industry Press Co., Ltd. All rights reserved.

Automated summary

This paper presents an oscillation-based method for measuring absolute adsorption in porous rocks, taking into account excess adsorption. Experimental results show that accurate absolute adsorption can be obtained by subtracting the added mass of co-accelerated gas outside the sample and assuming no excess adsorption exists inside the sample.