TY - JOUR
T1 - Geochemical evaluation of flowback brine from Marcellus gas wells in Pennsylvania, USA
AU - Haluszczak, Lara O.
AU - Rose, Arthur W.
AU - Kump, Lee R.
PY - 2013/1
Y1 - 2013/1
N2 - Large quantities of highly saline brine flow from gas wells in the Marcellus Formation after hydraulic stimulation (" fracking"). This study assesses the composition of these flowback waters from the Marcellus shale in Pennsylvania, USA. Concentrations of most inorganic components of flowback water (Cl, Br, Na, K, Ca, Mg, Sr, Ba, Ra, Fe, Mn, total dissolved solids, and others) increase with time from a well after hydraulic stimulation. Based on results in several datasets reported here, the greatest concentration of Cl- in flowback water is 151,000mg/L. For total Ra (combined 226Ra and 228Ra) in flowback, the highest level reported is 6540pCi/L. Flowback waters from hydraulic fracturing of Marcellus wells resemble brines produced from conventional gas wells that tap into other Paleozoic formations in the region. The Br/Cl ratio and other parameters indicate that both types of brine formed by the evaporation of seawater followed by dolomitization, sulfate reduction and subsurface mixing with seawater and/or freshwater. Trends and relationships in brine composition indicate that (1) increased salt concentration in flowback is not mainly caused by dissolution of salt or other minerals in rock units, (2) the flowback waters represent a mixture of injection waters with highly concentrated in situ brines similar to those in the other formations, and (3) these waters contain concentrations of Ra and Ba that are commonly hundreds of times the US drinking water standards.
AB - Large quantities of highly saline brine flow from gas wells in the Marcellus Formation after hydraulic stimulation (" fracking"). This study assesses the composition of these flowback waters from the Marcellus shale in Pennsylvania, USA. Concentrations of most inorganic components of flowback water (Cl, Br, Na, K, Ca, Mg, Sr, Ba, Ra, Fe, Mn, total dissolved solids, and others) increase with time from a well after hydraulic stimulation. Based on results in several datasets reported here, the greatest concentration of Cl- in flowback water is 151,000mg/L. For total Ra (combined 226Ra and 228Ra) in flowback, the highest level reported is 6540pCi/L. Flowback waters from hydraulic fracturing of Marcellus wells resemble brines produced from conventional gas wells that tap into other Paleozoic formations in the region. The Br/Cl ratio and other parameters indicate that both types of brine formed by the evaporation of seawater followed by dolomitization, sulfate reduction and subsurface mixing with seawater and/or freshwater. Trends and relationships in brine composition indicate that (1) increased salt concentration in flowback is not mainly caused by dissolution of salt or other minerals in rock units, (2) the flowback waters represent a mixture of injection waters with highly concentrated in situ brines similar to those in the other formations, and (3) these waters contain concentrations of Ra and Ba that are commonly hundreds of times the US drinking water standards.
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U2 - 10.1016/j.apgeochem.2012.10.002
DO - 10.1016/j.apgeochem.2012.10.002
M3 - Article
AN - SCOPUS:84871936512
SN - 0883-2927
VL - 28
SP - 55
EP - 61
JO - Applied Geochemistry
JF - Applied Geochemistry
ER -