Schwartz, Michael O. (2015) Modelling the hypothetical methane-leakage in a shale-gas project and the impact on groundwater quality. Environmental Earth Sciences, 73 (8). pp. 4619-4632. DOI: https://doi.org/10.1007/s12665-014-3787-3
Full text not available from this repository.Abstract
The hypothetical leakage of methane gas caused by fracking a 1,000-m deep Cretaceous claystone horizon at Damme, Germany, is simulated in a TOUGHREACT reactive-transport model with 5,728 elements. A hypothetical leakage zone connects the Cretaceous horizon with a Quaternary potable-water aquifer (q1). Methane gas rises up to the q1 horizon in less than 2 days in all calculated scenarios. The simulations include the major constituents of groundwater as well as the seven most hazardous trace components that are natural constituents of groundwater (As, Cd, Cr, Ni, Pb, Se and U). The general trend is characterised by depletion of the natural hazardous components with decreasing acidity and oxygen fugacity in the relevant pH range (7–9). Nevertheless, the concentrations of elements whose dominant aqueous species are negatively charged in this pH range (Cr and Se) rise against the general trend due to desorption reactions. Slight enhancement effects are produced by the dissolution of contaminant-bearing oxides such as Cr-bearing goethite. In summary, the geological risks of a fracking operation are minor. The technical risks are more important. This is especially the case when rising methane gas gets into contact with fracking fluid that accidentally escapes through faulty well seals.
Item Type: | Article |
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Uncontrolled Keywords: | Groundwater protection, Hydrochemical modelling, Fracking, Natural gas |
Subjects: | Methodology > Other-additional study Region > Germany Inducing technology > Unconventional hydrocarbon extraction |
Project: | SHEER project |