Study shows how permafrost releases methane in the warming Arctic

Researchers from Skoltech have designed and conducted experiments measuring gas permeability under various conditions for ice-containing sediments mimicking permafrost. Their results can be useful both in modeling and testing techniques for gas production from Arctic reservoirs and in tracing methane emission in high latitudes. The paper was published in the journal

Energy&Fuels

.

Permafrost, even though it sounds very stable and permanent, is actually quite diverse: depending on the composition of the frozen ground, pressure, temperature and so on, it can have varying properties, which are extremely important if you want to build something on permafrost, such as an oil and gas field. Permafrost is also very gassy: it may contain a lot of natural gas in the form of hydrates, and its permeability is an important parameter both for research and for many activities in the Arctic.

“Gas permeability affects migration and accumulation of natural gas in this frozen ground as well as atmospheric emissions. Knowledge of filtration properties of permafrost containing gas hydrates is also absolutely necessary for estimates of the possibility of extracting gas from hydrates,” Evgeny Chuvilin, Leading Research Scientist at Skoltech and a coauthor of the paper, says.

Chuvilin and his colleagues decided to handle the poorly studied issue of gas permeability variations in ice- and hydrate-saturated sand samples during freezing and thawing and as gas hydrates form and dissociate. For that, the team had to design and build an experimental setup that would allow them to test various samples mimicking permafrost under various pressure and temperature conditions as well as clay content.

“The data we got can be used in testing methods of gas extraction in permafrost areas, including from hydrates, and in mapping areas with high permeability in permafrost for methane emissions studies in the Arctic,” Chuvilin says.

Their study also showed a high probability of increasing permeability coupled with dissociation of gas hydrates in permafrost – a likely scenario given the current warming trend in the Arctic. “We don’t necessarily have to wait for a complete thawing of permafrost – even a slight shift of temperature is enough to trigger dissociation. And increased gas permeability that will follow will create conditions for methane emissions into the atmosphere, causing a variety of environmental and technological impacts,” Chuvilin notes.

###

Skoltech is a private international university located in Russia. Established in 2011 in collaboration with the Massachusetts Institute of Technology (MIT), Skoltech is cultivating a new generation of leaders in the fields of science, technology and business, is conducting research in breakthrough fields, and is promoting technological innovation with the goal of solving critical problems that face Russia and the world. Skoltech is focusing on six priority areas: data science and artificial intelligence, life sciences, advanced materials and modern design methods, energy efficiency, photonics and quantum technologies, and advanced research. Web:

https:/

/

www.

skoltech.

ru/


.

This part of information is sourced from https://www.eurekalert.org/pub_releases/2021-06/sios-ssh061021.php