💾 Archived View for gmi.noulin.net › mobileNews › 3044.gmi captured on 2023-12-28 at 19:53:33. Gemini links have been rewritten to link to archived content

View Raw

More Information

⬅️ Previous capture (2023-01-29)

➡️ Next capture (2024-05-10)

-=-=-=-=-=-=-

Shale gas 'worse than coal' for climate

2011-04-13 08:47:17

Richard Black By Richard Black Environment correspondent, BBC News

A core of shale rock Gas is a natural by-product of shale rock

The new kid on the energy block, shale gas, may be worse in climate change

terms than coal, a study concludes.

Drawn from rock through a controversial "fracking" process, some hail the gas

as a "stepping stone" to a low-carbon future and a route to energy security.

But US researchers found that shale gas wells leak substantial amounts of

methane, a potent greenhouse gas.

This makes its climate impact worse than conventional gas, they say - and

probably worse than coal as well.

"Compared to coal, the footprint of shale gas is at least 20% greater and

perhaps more than twice as great on the 20-year horizon, and is comparable over

100 years," they write in a paper to be published shortly in the journal

Climatic Change.

"We have produced the first comprehensive analysis of the greenhouse gas

footprint of shale gas," said lead author Robert Howarth from Cornell

University in Ithaca, US.

"We have used the best available data [and] the conclusion is that shale gas

may indeed be quite damaging to global warming, quite likely as bad or worse

than coal," he told BBC News.

Short-term fix?

Start Quote

We should not proceed to view shale gas as a 'transitional fuel' to be used

over the next few decades to replace other fossil fuels

End Quote Robert Howarth Cornell University

Greenhouse gas emissions from shale gas are predominantly down to two things:

carbon dioxide produced when the gas is burned, and methane that leaks out

while the well is being exploited.

Figures from the US government and industry indicate that at least a third more

methane leaks from shale gas extraction than from conventional wells - and

perhaps more than twice as much.

Extracting the gas involves a complex sequence of processes including drilling

down and then sideways along a shale bed, cracking the rock with hydraulic

pressure or explosions (fracking), placing plugs in the shaft and then

"drilling out" these plugs.

Coal, by contrast, is associated with a much smaller methane release during

mining; but burning it produces about twice as much CO2 as burning natural gas.

Molecule for molecule, methane is a much more potent greenhouse gas than CO2;

but it lasts for a much shorter time in the atmosphere.

Figures from this research team indicate that over a 20-year period, the net

warming impact of using shale gas is worse than coal - and, perhaps more

surprisingly, that conventional gas may be worse than coal as well.

Over a 100-year timeframe, conventional gas is almost certainly better than

coal - but shale gas could be worse.

The precise numbers depend most on leakage rates. Dr Howarth's group used "best

practice" estimates; in the real world, therefore, the leakage and the climate

impact could be even worse.

"No-one knows for sure to what extent industry uses best practices; and

unfortunately, at least in the US, industry does not want government or the

public to know," he said.

Shale gas rig Some communities see shale gas as a route to local riches, as

well as energy independence

"The Environmental Protection Agency has proposed rules that would require

industry to report methane emissions, but several companies have sued the EPA

to try to prevent such reporting."

With greenhouse gas emissions resuming their rise as societies emerge from

recession, and with growth in fossil fuel use expanding at a faster absolute

rate than renewables, some analysts and even climate campaigners have seized on

the option of expanding gas use as a "transitional fuel" on the way from

high-carbon coal-burning to low-carbon alternatives.

The new US analysis suggests this may not be a sensible strategy, given that

the total carbon footprint appears bigger - especially if the gas comes from

shale formations.

Current projections suggest that within 25 years, half of the US natural gas

output will come from shale, while many other countries are also pursuing the

technology.

The first trial fracking in the UK took place last month, in Lancashire.

Euan Nisbet, a geologist who runs several methane monitoring and research

programmes from Royal Holloway, University of London, suggested the detailed

balance might vary between geological formations.

"By trying to evaluate the greenhouse gas footprint of shale gas extraction,

Howarth and his team are asking important questions about this new bonanza," he

said.

"I suspect the debate on this will be long, and the answers will be different

for each shale gas formation; but it is important that we tackle this debate."

"We also need to be very careful to account fully for the greenhouse footprint

of conventional gas piped over long distances, for instance in the import of

Asian gas to Europe, or Norwegian gas to the UK. The energy choices are not

easy."

The UK Department for Energy and Climate Change (DECC) is preparing to issue

more fracking licences around the country, and a spokesman said it would

"closely monitor developments and consider the need for additional research to

improve our understanding of the implications for policy".

Robert Howarth, however, was less equivocal.

"We should not proceed to view shale gas as a 'transitional fuel' to be used

over the next few decades to replace other fossil fuels, but rather work harder

to move towards truly green renewable fuels as quickly as possible, such as

wind and solar."