Characterization and Analysis of Liquid Waste from Marcellus Shale Gas Development.

Hydraulic fracturing of shale for gas production in Pennsylvania generates large quantities of wastewater, the composition of which has been inadequately characterized. We compiled a unique data set from state-required wastewater generator reports filed in 2009-2011. The resulting data set, comprising 160 samples of flowback, produced water, and drilling wastes, analyzed for 84 different chemicals, is the most comprehensive available to date for Marcellus Shale wastewater. We analyzed the data set using the Kaplan-Meier method to deal with the high prevalence of nondetects for some analytes, and compared wastewater characteristics with permitted effluent limits and ambient monitoring limits and capacity. Major-ion concentrations suggested that most wastewater samples originated from dilution of brines, although some of our samples were more concentrated than any Marcellus brines previously reported. One problematic aspect of this wastewater was the very high concentrations of soluble constituents such as chloride, which are poorly removed by wastewater treatment plants; the vast majority of samples exceeded relevant water quality thresholds, generally by 2-3 orders of magnitude. We also examine the capacity of regional regulatory monitoring to assess and control these risks.

[1]  J. Vanbriesen,et al.  Research Articles: Oil and Gas Produced Water Management and Surface Drinking Water Sources in Pennsylvania , 2012 .

[2]  B. Lazar,et al.  The evaporation path of seawater and the coprecipitation of Br- and K+ with halite. , 1987, Journal of sedimentary petrology.

[3]  Dirk Weichgrebe,et al.  Hydraulic fracturing wastewater in Germany: composition, treatment, concerns , 2013, Environmental Earth Sciences.

[4]  R. Lefebvre,et al.  An overview of Canadian shale gas production and environmental concerns , 2014 .

[5]  Susan J Riha,et al.  Wastewater management and Marcellus Shale gas development: trends, drivers, and planning implications. , 2012, Journal of environmental management.

[6]  R. Jackson,et al.  Geochemical evidence for possible natural migration of Marcellus Formation brine to shallow aquifers in Pennsylvania , 2012, Proceedings of the National Academy of Sciences.

[7]  M. Engle,et al.  Surface disposal of produced waters in western and southwestern Pennsylvania: potential for accumulation of alkali-earth elements in sediments , 2014 .

[8]  R. Hammack,et al.  Co-precipitation of radium with barium and strontium sulfate and its impact on the fate of radium during treatment of produced water from unconventional gas extraction. , 2014, Environmental science & technology.

[9]  Z. Hildenbrand,et al.  Chemical Analysis of Wastewater from Unconventional Drilling Operations , 2015 .

[10]  Samantha L Malone,et al.  Assessment of effluent contaminants from three facilities discharging Marcellus Shale wastewater to surface waters in Pennsylvania. , 2013, Environmental science & technology.

[11]  J. Abad,et al.  Impact of Shale Gas Development on Regional Water Quality , 2013, Science.

[12]  J. McIntosh,et al.  Chemical and isotopic tracers of the contribution of microbial gas in Devonian organic-rich shales and reservoir sandstones, northern Appalachian Basin. , 2010 .

[13]  D. Dzombak,et al.  Water Management Challenges Associated with the Production of Shale Gas by Hydraulic Fracturing , 2011 .

[14]  M. Engle,et al.  Radium content of oil- and gas-field produced waters in the northern Appalachian Basin (USA): Summary and discussion of data , 2011 .

[15]  Garth T. Llewellyn Evidence and mechanisms for Appalachian Basin brine migration into shallow aquifers in NE Pennsylvania, USA , 2014, Hydrogeology Journal.

[16]  N. Vidic,et al.  Spatial and temporal correlation of water quality parameters of produced waters from devonian-age shale following hydraulic fracturing. , 2013, Environmental science & technology.

[17]  David Andrew Yoxtheimer,et al.  Research Articles: Production and Disposal of Waste Materials from Gas and Oil Extraction from the Marcellus Shale Play in Pennsylvania , 2012 .

[18]  Martin W. Doyle,et al.  Generation, transport, and disposal of wastewater associated with Marcellus Shale gas development , 2013 .

[19]  R. Jackson,et al.  A critical review of the risks to water resources from unconventional shale gas development and hydraulic fracturing in the United States. , 2014, Environmental science & technology.

[20]  L. Kump,et al.  Geochemical evaluation of flowback brine from Marcellus gas wells in Pennsylvania, USA , 2013 .

[21]  Avner Vengosh,et al.  Enhanced formation of disinfection byproducts in shale gas wastewater-impacted drinking water supplies. , 2014, Environmental science & technology.

[22]  N. Warner,et al.  Iodide, bromide, and ammonium in hydraulic fracturing and oil and gas wastewaters: environmental implications. , 2015, Environmental science & technology.

[23]  AbualfarajNoura,et al.  Characterization of Marcellus shale flowback water. , 2014 .

[24]  J. Veil Water management technologies used by Marcellus Shale Gas Producers. , 2010 .

[25]  Roger R. Myers,et al.  Marcellus Shale Post-Frac Flowback Waters - Where is All the Salt Coming from and What are the Implications? , 2009 .

[26]  J. McIntosh,et al.  Organic substances in produced and formation water from unconventional natural gas extraction in coal and shale , 2014 .

[27]  Sheila M. Olmstead,et al.  Shale gas development impacts on surface water quality in Pennsylvania , 2013, Proceedings of the National Academy of Sciences.

[28]  Nian She,et al.  ANALYZING CENSORED WATER QUALITY DATA USING A NON‐PARAMETRIC APPROACH 1 , 1997 .

[29]  R. Jackson,et al.  Impacts of shale gas wastewater disposal on water quality in western Pennsylvania. , 2013, Environmental science & technology.

[30]  R. Antweiler,et al.  Evaluation of statistical treatments of left-censored environmental data using coincident uncensored data sets: I. Summary statistics. , 2008, Environmental science & technology.

[31]  J. Abad,et al.  Water resource impacts during unconventional shale gas development: The Pennsylvania experience , 2014 .

[32]  D. Papoulias,et al.  Histopathological Analysis of Fish from Acorn Fork Creek, Kentucky, Exposed to Hydraulic Fracturing Fluid Releases , 2013 .

[33]  K. Schroeder,et al.  Geochemical and strontium isotope characterization of produced waters from Marcellus Shale natural gas extraction. , 2012, Environmental science & technology.