Evolution of Pore Structure in Organic-Lean and Organic-Rich Mudrocks

Amirsaman Rezaeyan, Niko Kampman, Vitaliy Pipich, Lester C. Barnsley, Gernot Rother, Clayton Magill, Jingsheng Ma, Andreas Busch

Research output: Contribution to journalArticlepeer-review

3 Scopus citations

Abstract

The pore structure of mudrocks is a key characteristic to evaluate flow behavior through these rocks. Although significant advances have been made to resolve pore characteristics, porosity evolution, or pore connectivity, there is still insufficient knowledge linking porosity evolution to flow and transport in mudrocks. To better understand these links, we conducted very small-angle (VSANS) and small-angle neutron scattering (SANS) experiments on 13 sets of mudrocks from global locations, characterized by differences in composition, maturity, and depositional environment. Our results indicate that a homogeneous pore structure reflects a stable and low-energy depositional environment. Organic-lean mudrocks mainly contain pores <10 nm, which restricts flow and is beneficial for, e.g., caprock seal integrity. Increasing maturity as a result of increasing burial depth, and therefore, temperature leads to porosity evolution. In organic-rich mudrocks (ORMs), this happens through the generation of organic matter pores and pore preservation around diagenetically formed carbonates. ORMs mainly contain macropores (>50 nm), favoring production from, e.g., unconventional reservoirs. SANS-derived pore size distributions will help to better understand fluid imbibition and flow properties in mudrocks through comprehensive quantitative characterization of the nano- to micron scale pore network conduits and their relationships to burial diagenesis.

Original languageEnglish
Pages (from-to)16446-16460
Number of pages15
JournalEnergy and Fuels
Volume37
Issue number21
DOIs
StatePublished - Nov 2 2023

Funding

This work is based upon experiments performed at the KWS-1 and KWS-3 instruments operated by Julich Centre for Neutron Science at the Heinz Maier-Leibnitz Zentrum, Garching, Germany. We are very grateful for the possibility to conduct measurements at these instruments and thank Artem Feoktystov for helping with the data collection. We thank SCK-CEN for providing Boom Clay samples, Swisstopo, Switzerland for providing Opalinus Shale samples, and Norske Shell, Norway for making Våle shale samples available to this study. We are thankful to Pieter Bertier, Leon Leu, and Timo Seemann for useful discussions and support in acquiring SANS data. Contributions to the manuscript by Gernot Rother were supported by the Department of Energy, Office of Science, Office of Basic Energy Sciences, Chemical Sciences, Geosciences and Biosciences Division.

FundersFunder number
Heinz Maier-Leibnitz Zentrum
Norske Shell
U.S. Department of Energy
Office of Science
Basic Energy Sciences
Chemical Sciences, Geosciences, and Biosciences Division

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