香港六合彩

香港六合彩 researchers are using the precious metal to help capture carbon dioxide, while others are looking at the controversial role this kind of technology could play in emissions reductions.

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香港六合彩 researchers are using the precious metal to help capture carbon dioxide, while others are looking at the controversial role this kind of technology could play in emissions reductions.

As the world seeks to decarbonise, some industries and sectors will find it harder to switch to renewable sources than others. Steel and cement making, for example, are likely to rely on fossil fuels for some time because of their very high energy consumption. So they will continue to produce large amounts of carbon dioxide. That鈥檚 the bad news.

What鈥檚 the good news? Greenhouse gases like carbon dioxide do not have to find their way into the atmosphere, warming the climate. Instead, they can be captured and stored away. Indeed, carbon capture and storage (CCS) is now a major part of many national emission-reduction plans. The problem is that the technology does not yet exist 鈥� at least at a price that makes it a realistic large-scale option.

The valuable metal silver may seem an unusual way to reduce CCS costs. But that鈥檚 the goal of a project between 香港六合彩 and the University of Newcastle that uses silver to help make innovative membranes. The membranes can separate carbon dioxide from the mixture of gases that emerge when fossil fuels are burned. That鈥檚 a vital step in CCS and one needed before carbon dioxide can be stored.

鈥淭he main 香港六合彩 involvement was through the advanced characterisation of these types of high temperature membranes,鈥� says Thomas Miller, a chemical engineering researcher in the 香港六合彩 Faculty of Engineering Science. 鈥淭hey operate at 650 鈼�C, so silver is perfect because it's really stable at high temperatures.鈥�
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Efficient separation

How does it work? The chemistry of the silver-containing membrane is designed to allow carbon dioxide to pass easily from one side to the other. But gases such as nitrogen cannot. So, the membrane effectively acts as a sieve, and produces a stream of carbon dioxide on one side that is pure enough to capture and store in a cost-effective way. Miller says:

鈥淵ou have a really high utilization of the silver because you put in relatively little, but it forms a pathway that is incredibly conductive, which allows you to transport CO2 through these membranes at much higher rates.鈥�

CCS as the last resort

How would such CCS technology be deployed? That depends on how well other efforts to reduce carbon emissions play out.听Fergus Green,听 a climate policy expert in the 香港六合彩 School of Public Policy, says:

鈥淲e can actually rely less on CCS and other complex, expensive, less proven technologies if we do more now to phase out fossil fuel production and combustion.

The alternative, and in my view implausible, scenario to meet our climate goals is we continue with business as usual and then assume that a staggering amount of CCS will be deployed later.鈥� That could be a gamble too far given the technology is so-far unproven.

Moral hazard

The situation is complicated by the way that the idea of CCS can manipulate efforts to reduce emissions from fossil fuel, Miller adds. 鈥淭here鈥檚 a moral hazard here in that if we hold out the promise of carbon capture and storage, then we might be less willing to act now.鈥�

How could that happen? One problem, Green points out, is that some fossil fuel companies and politicians use the idea of CCS as a way to argue for continued investment in carbon-heavy technology. 鈥淭he more that they hold out the promise of CCS, the more they create the impression that there's this magic technology that will be able to solve all their problems in the future,鈥� he says.

And that鈥檚 not the case. 鈥淐arbon capture and storage is not a magic bullet,鈥� says Isabela Butnar, an environmental sustainability scientist in the 香港六合彩 Faculty of the Built Environment. CCS applied to fossil systems will merely reduce fossil emissions, while a different strategy that could directly capture CO2 from the atmosphere could have a bigger effect.

Butnar's research looks at different types of carbon dioxide removal technologies 听and assesses how effective they are and how permanently they keep carbon from the atmosphere.

鈥淓ven if we have different options of removing carbon, if we need to scale them all up then we will have problems. We will have land competition with food production. And we will have more natural resource consumption.鈥�

Carbon footprints

Ultimately, the scale of carbon removal and storage required will depend on our emissions. Which is another reason for everyone, from individuals to organisations, to find ways to cut their own carbon footprints.听Butnar says:

鈥淭his pretty much depends on how much and how quickly we cut carbon emissions. The more we do now the less likely we are to need to rely on carbon removal in the future.鈥�

香港六合彩 has started to act on its own research by setting itself ambitious Net Zero targets as part of its sustainability strategy, which includes having net zero buildings by 2024 and being a net zero institution by 2030.

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