H31E-1464
Characteristics and management of flowback/produced water from hydraulically fractured wells in California - findings from the California SB 4 assessment

Wednesday, 16 December 2015
Poster Hall (Moscone South)
Charuleka Varadharajan1, Heather Cooley2, Matthew G Heberger2, William T Stringfellow1, Jeremy K Domen3, Whitney Sandelin3, Mary Kay Camarillo3, Preston D. Jordan1, Matthew T Reagan1, Kristina Donnelly2, Jens T Birkholzer1 and Jane C S Long4, (1)Lawrence Berkeley National Laboratory, Berkeley, CA, United States, (2)Pacific Institute, Oakland, CA, United States, (3)University of the Pacific, Stockton, CA, United States, (4)Retired, Washington, DC, United States
Abstract:
As part of a recent assessment of well stimulation in California, we analyzed the hazards and potential impacts of hydraulic fracturing (the primary form of well stimulation in California) on water resources, which included an analysis of the quantity and quality of flowback/produced water generated, current management and disposal practices, associated potential release mechanisms and transport pathways that can lead to contaminants being released into the environment, and practices to mitigate or avoid impacts from produced water on water resources.

The wastewater returned after stimulation includes “recovered fluids” (flowback fluids collected into tanks following stimulation, but before the start of production) and “produced water” (water extracted with oil and gas during production). In contrast to hydraulic fracturing in regions with primarily gas production, the quantities of recovered fluids from hydraulically fractured wells in California are small in comparison to the fluids injected (typically <5%), and large quantities of produced water are generated. Our analysis indicates some fraction of returning fracturing fluids is likely present in produced water from wells that have been hydraulically fractured. Chemical measurements of recovered fluids show that some samples can contain high levels of some contaminants, including total carbohydrates (indicating the presence of guar, a component of fracturing fluid), total dissolved solids (TDS), trace elements and naturally occurring radioactive material (NORM). Data on produced water chemistry are more limited.

In California, produced water is typically managed via pipelines and disposed or reused in many ways. A majority of produced water from hydraulically fractured wells in California is disposed in percolation pits, many of which may lie in areas with good groundwater quality. Some of the remaining produced water is injected into Class II wells; although a few of the wells are under review or have been shut down since they were injecting into aquifers. Other methods of management of produced water include reuse for irrigation and discharge into sewer systems. Each of these disposal and reuse methods presents its own unique set of concerns that need to be considered together, in designing a produced water management plan.