Posts Tagged ‘clathrates’

Could this be a needed change?

Japan extracts gas from methane hydrate in world first

Methane hydrate is also known as burnable or flammable ice

Japan says it has successfully extracted natural gas from frozen methane hydrate off its central coast, in a world first.

Methane hydrates, or clathrates, are a type of frozen “cage” of molecules of methane and water.

The gas field is about 50km away from Japan’s main island, in the Nankai Trough.

Researchers say it could provide an alternative energy source for Japan which imports all its energy needs.

Other countries including Canada, the US and China have been looking into ways of exploiting methane hydrate deposits as well.

Pilot experiments in recent years, using methane hydrates found under land ice, have shown that methane can be extracted from the deposits.

Methane clathrate – ‘Fire ice’

Offshore deposits present a potentially enormous source of methane but also some environmental concern, because the underwater geology containing them is unstable in many places.

“It is the world’s first offshore experiment producing gas from methane hydrate,” an official from the economy, trade and industry ministry told the AFP news agency.

A survey of the gas field is being run by state-owned Japan Oil, Gas and Metals National Corporation (JOGMEC).

Engineers used a depressurisation method that turns methane hydrate into methane gas.

Production tests are expected to continue for about two weeks.

Government officials have said that they aim to establish methane hydrate production technologies for practical use within five years.

A Japanese study estimated that at least 1.1tn cubic metres of methane hydrate exist in offshore deposits.

This is the equivalent of more than a decade of Japan’s gas consumption.

Japan has few natural resources and the cost of importing fuel has increased after a backlash against nuclear power following the Fukushima nuclear disaster two years ago.

  • Hydrates, or clathrates, are a frozen mixture of water and gas, primarily methane
  • The methane molecules reside inside a water molecule lattice
  • The methane will ignite in ice form – hence the “fire ice” moniker
  • Clathrates tend to form under frigid temperatures and high pressures
  • They are found in ocean sediments and under the permafrost on land
  • Vast deposits are thought to exist, rivalling known reserves of traditional fossil fuels

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Opinion:

Could this be the much needed drift away from nuclear and traditional fossil fuels?

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