Hint: Identifying quantum camera reduces oil and gas industry emissions

Credit: QLM

A new quantum-powered gas imaging camera can significantly reduce the harmful effects of methane leaks from the oil and gas industry.


The camera will be developed and developed at Bristol University by QLM Technology and Industrial Strategy Challenge Fund for commercial quantum technologies.

You can visualize and measure the amount of gas that is lost due to the loss of distant fluids.

This represents a significant improvement in the current identification methods that take time and make it difficult to measure the amount lost.

The state of the art of quantum technology

“This camera uses state-of-the-art quantum technology to see the invisible,” said Roger McKinley, director of the British Research and Innovation Quantum Technologies Challenge. It helps to reduce the amount of methane emitted into the atmosphere, which is expensive and harmful to the environment in the oil and gas industry. In the year of COP26, such innovations that would find practical ways to reduce emissions were no more important.

More powerful than CO2

Methane emissions are not inflamed.

Methane is 84 times more greenhouse gas than carbon dioxide released into the atmosphere.

This makes emissions often worse for the atmosphere.

From coal

Scientists estimate that if 3.2% of the methane flows from the well instead of burning, natural gas will be more eco-friendly than coal.

Therefore, it is important to reduce or eliminate leaks.

The camera does the following

  • Reducing the costly losses of gas
  • Secure utilities
  • Eliminate greenhouse gases from the atmosphere.

You cannot manage the unallocated

QLM Technology General Manager Muray Reed said.

“Oil and gas majors have promised to drastically reduce their methane emissions, but you can’t control what you can’t measure and no one can measure methane accurately, consistently and by measurement. The scale of the problem is enormous, with more than half a million active gas wells in North America alone, and thousands of beaches and gas storage facilities around the world. We have 24 major pipeline compression stations in the UK that control long-distance natural gas pipelines, and hundreds of landfills. They are all flowing at some point.

Seeing the invisible

The camera is the result of a two-year single-photo lead carbon dioxide (SPLICE) project.

It can continuously identify, measure and model fluids, and notify plant operators immediately of gas emissions.

Existing laser-based systems for measuring methane use complex and expensive mirror arrays to reflect light to a conventional detector.

Revolutionary investigator

In contrast, the QLM product uses a revolutionary single photo slide tool.

Because the detector is so sensitive that it can detect only a few light photos, it can “see” gas without the need for a mirror.

The universities of Shefield, Aston and Bristol are working to expand the range of gases that the new sensors can detect, including many other greenhouse gases.

This opens up opportunities to use this technology in other areas, such as technology.


Guard – Fossil fuel companies must stop climate gas leaks


Presented by the Council of Engineering and Physical Science Research

QuoteLeak-detecting Quantum Camera releases oil and gas industry releases (2021, August 18) from https://phys.org/news/2021-08-leak-detecting-quantum-camera-oil-gas.html

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