Predicting earthquake hazards from wastewater injection after fracking

然而,预测地震活动的数量wastewater injection is difficult because it involves numerous variables. These include the quantity of brine injected, how easily brine can move through the rock, the presence of existing geological faults, and the regional stresses on those faults.

Now a team of Arizona State University-led geoscientists, working under a Department of Energy grant, has developed a method to predict seismic activity from wastewater disposal. The team's study area is in Oklahoma, a state where much fracking activity has been carried out with a lot of wastewater injection, and where there have been several induced earthquakes producing damage.

The team's paper reporting their findings appeared in theProceedings of the National Academy of Scienceson July 29, 2019.

"Overall, earthquake hazards increase with background seismic activity, and that results from changes in the crustal stress," says Guang Zhai, a postdoctoral research scientist in ASU's School of Earth and Space Exploration and a visiting assistant researcher at the University of California, Berkeley. "Our focus has been to model the physics of such changes that result from wastewater injection."

Zhai is lead author for the paper, and the other scientists are Manoochehr Shirzaei, associate professor in the School, plus Michael Manga, of UC Berkeley, and Xiaowei Chen, of the University of Oklahoma.

"Seismic activity soared in one area for several years after wastewater injection was greatly reduced," says Shirzaei. "That told us that existing prediction methods were inadequate."

Back to basics

To address the problem, his team went back to basics, looking at how varying amounts of injected brine perturbed the crustal stresses and how these lead to earthquakes on a given fault.

"Fluids such as brine (and natural groundwater) can both be stored and move through rocks that are porous," says Zhai.

The key was building a physics-based model that combined the rock's ability to transport injected brine, and the rock's elastic response to fluid pressure. Explains Shirzaei, "Our model includes the records collected for the past 23 years of brine injected at more than 700 Oklahoma wells into the Arbuckle formation."

He adds that to make the scenario realistic, the model also includes the mechanical properties of the rocks in Oklahoma. The result was that the model successfully predicted changes in the crustal stress that come from brine injection.

For the final step, Shirzaei says, "We used a well-established physical model of how earthquakes begin so we could relate stress perturbations to the number and size of earthquakes."

The team found that the physics-based framework does a good job of reproducing the distribution of actual earthquakes by frequency, magnitude, and time.

"An interesting finding," says Zhai, "was that a tiny change in the rocks' elastic response to changes in fluid pressure can amplify the number of earthquakes by several times. It's a very sensitive factor."

让生产更安全

While wastewater injection can cause earthquakes, all major oil and gas production creates a large amount of wastewater that needs to be disposed of, and injection is the method the industry uses.

"So to make this safer in the future," says Shirzaei, "our approach offers a way to forecast injection-caused earthquakes. This provides the industry with a tool for managing the injection of brine after fracking operations."

Knowing the volume of brine to be injected and the location of the disposal well, authorities can estimate the probability that an earthquake of given size will result. Such probabilities can be used for short-term earthquake hazard assessment.

Alternatively, the team says, given the probability that an earthquake of certain size will happen, oil and gas operators can manage the injected brine volume to keep the probability of large earthquakes below a chosen value.

The end result, says Zhai, "is that this process will allow a safer practice, benefiting both the general public and the energy industry."