Monday, May 30, 2016

Heriot-Watt University Researchers Win $3.3 Million Grant to 3D Print Smart Rocks to Capture Data on Underground Oil and CO2.

In order to secure our water, food and energy supplies while being able to maintain the safe extraction of oil and gas from underground oilfields, we need to have a better understanding of the layer of porous rocks in the subsurface. Specifically, the way that liquids and gases manage to travel through them, and how captured carbon dioxide (CO2) could be stored underground. Unfortunately the conditions of this subsurface material vary widely depending on the type of rock, the temperatures and the pressures that occur deep under the ground. Beyond the complexity of replicating specific environmental conditions, direct dynamic observations at the pore level are virtually impossible in a lab setting. According to Professor Mercedes Maroto-Valer, holder of the Robert M Buchan Chair in Sustainable Energy Engineering at Heriot-Watt University , the problem is that the rocks are unable to tell us what’s happening to them. However Maroto-Valer and her team of researchers think that they have come up with a way to communicate with these subsurface rocks, the team wants to make their own rocks that are capable of communicating with us. Their research was promising enough that the team received a prestigious European Research Council Advanced Award so they can continue to pursue their research into developing 3D printed “smart rocks” capable of giving the team an inside look of what’s happening deep underground. Maroto-Valer and her team will use a 3D printing process to produce their own porous rocks that will include multiple micro sensors embedded inside of them. The sensors will be able to transmit data directly to the research team, including detailed information about what actually happens to liquids and gases deep underground. The 3D printed smart rocks will be capable of providing information on the subsurface conditions and environment at a microscopic level, which is simply not possible to reproduce using traditional laboratory methods. This fundamental knowledge at such a tiny scale will feed hugely into our understanding of such processes at the large scale and enable us to maximize the success of industries from oil extraction to water safety and the storage of captured CO2. The grant that Maroto-Valer and her team won was awarded by the “Excellent Science” pillar of Horizon 2020, the European Union’s research and innovation program focusing on enabling senior researchers to pursue their most promising ideas. read more at 3dprint.com

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