Regional mudstone compaction trends in the Vienna Basin: top seal assessment and implications for uplift history

Lukas Skerbisch, David Misch, M. Drews, Harald Stollhofen, Reinhard Sachsenhofer, Klaus Arnberger, V. Schuller, A. Zamolyi

Publikation: Beitrag in FachzeitschriftArtikelForschungBegutachtung


Seal quality assessment is not only essential in petroleum systems studies but also in the context of other geo energy applications such as underground hydrogen storage. Capillary breakthrough pressure controls top seal capacity in the absence
of faults or other discontinuities. In basins that lack measured capillary pressure data (e.g., from drill cores), regional
compaction-porosity trends can be used as a frst prediction tool to estimate the capillary properties of mudstones. Mathematical compaction models exist but need to be calibrated for each basin. This study aims to establish a compaction trend
based on theoretical models, then compare it with theoretical maximum hydrocarbon column heights inferred from true
measured capillary pressure curves. Middle to upper Miocene mudstone core samples from the Vienna Basin, covering a
broad depth interval from 700 to 3400 m, were investigated by X-ray difractometry, with an Eltra C/S analyzer, and by
Rock–Eval pyrolysis for bulk mineralogy, total organic carbon, and free hydrocarbon contents. Broad ion beam—scanning
electron microscopy, mercury intrusion capillary porosimetry, and helium pycnometry were applied to obtain pore structural
properties to compare the mathematical compaction models with actual porosity data from the Vienna Basin. Clear decreasing porosity depth trends imply that mechanical compaction was rather uniform in the central Vienna Basin. Comparing the
Vienna Basin trend to global mudstone compaction trends, regional uplift causing erosion of up to~500 m upper Miocene
strata is inferred. A trend of increasing Rock–Eval parameters S1 and production index [PI=S1/(S1+S2)] with decreasing capillary sealing capacity of the investigated mudstones possibly indicates vertical hydrocarbon migration through the
low-permeable mudstone horizons. This observation must be considered in future top-seal studies for secondary storage
applications in the Vienna Basin.
Seiten (von - bis)1901–1921
FachzeitschriftInternational Journal of Earth Sciences
PublikationsstatusVeröffentlicht - 28 Juli 2023

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