期刊
GEOMECHANICS FOR ENERGY AND THE ENVIRONMENT
卷 25, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.gete.2020.100209
关键词
Carbonate; Karst; Reservoir geomechanics; Reservoir compaction; Surface subsidence; Stress paths
资金
- Petrobras under the ANP R&D levy, Brazil as Compromisso de Investimentos com Pesquisa e Desenvolvimento'' [20234-1, 20329-9]
This study analyzes the mechanical behavior of karstified carbonate reservoirs in a synthetic case study based on a Brazilian basin. Results show that the horizontal extension of the cavity and compressibility of the filling material are crucial for reservoir integrity, with qualitative results beneficial for the oil and gas industry. These findings will guide further advanced analyses.
In recent years, operational issues during the exploration of Pre-salt reservoirs have aroused the interest of the Brazilian oil and gas industry in studying karstification and its effect on carbonate reservoirs. Since then, a massive research effort was dedicated to the geology of the Brazilian onshore karstified carbonate formations; however, geomechanical modeling of reservoirs with karstic cavities remains unexplored in the literature. This work analyzes the mechanical behavior of karstified carbonate reservoirs during the hydrocarbon production period. A synthetic case study based on real geologic horizons of a Brazilian basin is carried out to predict the mechanical response of the reservoir and surroundings. The presence of a preexistent cavity developing around the reservoir symmetry axis is postulated. Different scenarios of karstic geometry and filling material are considered. Results focus on reservoir compaction, surface subsidence, and stress paths in regions of interest of the reservoir, caprocks, and cavity wall. Comparative results show that the horizontal extension of the cavity and the compressibility of the filling material play an important role in reservoir integrity. The qualitative results are useful for the oil and gas industry in terms of identifying problematic regions for wells and establishing loading limits. The findings and the preliminary results of this innovative work shall guide further advanced analyses, especially in the area of dolines generation from karstic cavities. (C) 2020 Elsevier Ltd. All rights reserved.
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