Fully compositional multi-scale reservoir simulation of various CO2 sequestration mechanisms

Journal Article (2017)
Author(s)

Denis V. Voskov (TU Delft - Civil Engineering & Geosciences)

Heath Henley (University of Rhode Island)

Angelo Lucia (University of Rhode Island)

Research Group
Reservoir Engineering
DOI related publication
https://doi.org/10.1016/j.compchemeng.2016.09.021 Final published version
More Info
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Publication Year
2017
Language
English
Research Group
Reservoir Engineering
Volume number
96
Pages (from-to)
183-195
Downloads counter
102

Abstract

A multi-scale reservoir simulation framework for large-scale, multiphase flow with mineral precipitation in CO2-brine systems is proposed. The novel aspects of this reservoir modeling and simulation framework are centered around the seminal coupling of rigorous reactive transport with full compositional modeling and consist of (1) thermal, multi-phase flow tightly coupled to complex phase behavior, (2) the use of the Gibbs-Helmholtz Constrained (GHC) equation of state, (3) the presence of multiple homogeneous/heterogeneous chemical reactions, (4) the inclusion of mineral precipitation/dissolution, and (5) the presence of homogeneous/heterogeneous formations. The proposed modeling and simulation framework is implemented using the ADGPRS/GFLASH system. A number of examples relevant to CO2 sequestration including salt precipitation and solubility/mineral trapping are presented and geometric illustrations are used to elucidate key attributes of the proposed modeling framework.