Friday, July 11, 2014
An estimated 1 million gallons of saltwater generated by oil drilling has leaked from a North Dakota pipeline, company and tribal officials say, and federal authorities are investigating whether any of the liquid reached Lake Sakakawea, one of the nation's largest man-made lakes. Here are some questions and answers about the spill and saltwater:
Q: How does oil drilling produce saltwater?
A: Water at depths below the freshwater table becomes progressively saltier — in some cases, more so than ocean water. This naturally occurring saltwater often accumulates in the porous rock formations that contain oil and gas deposits, so it rises to the surface during production and must be separated. Additionally, water injected deep underground during hydraulic fracturing, or "fracking," can acquire similar levels of salinity before returning to the surface.
Q: What disposal options are there?
A: Fracking fluids are often re-used but eventually must be discarded, while naturally occurring briny water that rises to the surface during oil and gas production must be disposed of continuously. One method is to transport it to an approved disposal well for underground injection. Another is to store the water where it can evaporate, leaving behind solid residues that can be placed in a landfill.
Q. How frequent are spills?
A. Penn State University geoscientist Terry Engelder says spills of less than 100 gallons are commonplace because of the complexity of underground pipelines, with their many connectors and valves. In North Dakota alone, 141 pipeline leaks were reported in 2012. A rupture in 2006 spewed 1 million gallons into a creek, aquifer and pond and is still being cleaned up.
Q. How damaging are saltwater spills?
A. Fracking fluid consists mostly of water but contains small volumes of chemical additives, while naturally occurring briny water pumped to the surface can contain radioactive materials at varying levels. The extent of the damage often depends on a spill's location. Even large amounts released into a large lake or river can be diluted relatively quickly, unlike oil, but smaller water bodies and land can sustain major damage.