How to make the liquefied natural gas industry more sustainable
The recently announced $40 billion liquefied natural gas (LNG) project in northern British Columbia represents the single largest private sector investment in Canadian history. And construction will soon begin on two more LNG projects, one in Nova Scotia and another in British Columbia.
What’s the right answer? It turns out, it depends on how Canada decides to regulate LNG, and the oil and gas industry.
The pro-environment case for LNG is simple. Natural gas is a cleaner burning fuel than coal. Replacing coal use in China with Canadian natural gas will reduce global greenhouse gas emissions as well as improve air quality in Asia. Plus, the emissions associated with shipping LNG to China from Canada are about 30 per cent less than those produced by shipping LNG from Qatar or Australia — China’s current major suppliers — because of the shorter distances.
The practical case is simpler. In its recent report on the global LNG outlook, Bloomberg New Energy Finance projects LNG demand will grow to 450 million metric tonnes per year (MMtpa) by 2030. Most of this demand growth (86 per cent) comes from Asia, with China leading the pack. The argument goes — someone is going to supply Asia’s need for LNG, why shouldn’t it be Canada?
Is sustainable LNG possible?
Sustainable development of a Canadian LNG industry is indeed possible, but it depends on effective management of two critical environmental risks: methane emissions from natural gas production and electricity emissions associated with powering the LNG facility.
Methane is a potent greenhouse gas. The warming potential of methane is 36 times greater than carbon dioxide over a 100-year period. In its latest report, the Intergovernmental Panel on Climate Change (IPCC) says stopping methane leaks is key if we are to keep global warming below 1.5 ℃.
Worryingly, several recent scientific studies show higher methane emissions from oil and gas production in British Columbia and Alberta compared to official estimates. High methane leakage can negate the greenhouse gas emissions advantages of using natural gas over coal.
The key to developing a low-carbon LNG industry is to reduce the methane emissions associated with production, transportation and liquefaction of natural gas. The federal government recently finalized regulations to reduce methane emissions from the oil and gas industry. Similar regulations in Alberta and British Columbia will go a long way to bolster the case for sustainability.
Innovative emissions detection
Several start-up companies in Canada and the United States are developing technologiesthat promise faster and more cost-effective detection of methane leaks. These technological innovations use drones, planes and even satellites to survey large areas quickly, likely providing cheaper ways to find methane leaks.
Our recent study — the Stanford/EDF Mobile Monitoring Challenge — assessed ten leak detection technologies on platforms such as trucks, drones and planes. This study was conducted in a single-blind format — participating teams did not know the location or size of leaks that they were tested on. We should have the results publicly available by early next year.
Furthermore, in a sign of growing interest in technology innovation, the Oil and Gas Climate Initiative, an industry-led initiative focused on climate solutions, recently invested in companies developing new methane emissions detection technologies.
Until recently, regulations prescribed the use of traditional approaches to leak detection at oil and gas facilities. Aggressive methane mitigation policies that allow for the use of new technologies can not only reduce emissions at lower cost, but also help energize Canada’s innovation ecosystem.
What about the LNG plant?
But stopping methane leaks is not enough.
The transformation of natural gas to LNG — cooling it to -162℃ — is an energy intensive process. If the LNG industry is to be a low-carbon industry, it must include a low-carbon liquefaction process.
The best-case scenario here is to use low or zero-carbon energy sources. Luckily, British Columbia’s largely hydroelectric grid provides just such a source. With additional renewable energy sources, it is possible to build a low-carbon LNG plant.
However, LNG Canada currently plans to use a combination of renewable sources and natural gas to power the new B.C. plant.
Even though this project is touted to have the lowest carbon intensity of any large-scale LNG plant operating in the world, there is a cleaner way to do this — using the B.C. grid electricity.