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Coal-to-liquid solution for energy woes
The StraitsTimes ^ | July 19, 2004 | David Dapice

Posted on 07/20/2004 9:27:15 AM PDT by Baby Bear

AMID continuing violence in the Middle East, the issue of energy security is again on the front burner. With oil prices rising to a peak of US$40 (S$68) a barrel, countries have been looking at alternative energy with a greater urgency. This heightened sense of urgency, fortunately, has come at a time when there is evidence that a new approach using existing resources and technology can provide alternative energy to many countries.

A glimmer of good news recently appeared: China signed an agreement with Sasol, a South African energy and chemicals firm, to build two coal-to-liquid fuel plants in China. These plants, costing US$3 billion each, are reported by the Financial Times to jointly produce 60 million tonnes of liquid fuel (440 million barrels) a year. Since China imported 100 million tonnes of oil last year, these plants would give China much control over its domestic energy situation, though its demand is growing fast.

The raw material and capital costs of a barrel of fuel would fall under US$10 and other costs would not bring total costs over US$15.

Coal resources of one trillion tonnes are widely distributed around the world. Many countries, including China, India, Russia, Ukraine, Germany, Poland, South Africa, the United States and Australia have extensive coal deposits that would last 100 years or more at current rates of exploitation. But coal is a highly polluting fuel when burned directly and also emits a lot of global-warming carbon dioxide.

The Sasol technology, a third-generation Fischer-Tropsch process, was developed in Germany and used in World War II, and later in South Africa. (Steam and oxygen are passed over coke at high temperatures and pressures; hydrogen and carbon monoxide are produced and then reassembled into liquid fuels.)

It has long been too expensive to compete with standard crude oil. On the plus side, sulphur and other pollutants such as ash and mercury are removed - the sulphur can be sold as a by-product - and carbon dioxide is segregated and can be injected underground. If hydrogen is needed for fuel cells, these plants can also provide it. In the near term, the petrol and diesel produced are high grade and clean, meeting even future 'clean diesel' requirements of the United States.

The real question is if these plants can be built and reliably produce fuels for less than US$20 a barrel. Sasol already produces 150,000 barrels a day from coal. (Conversion from natural gas is cheaper and Sasol is in the process of switching its feedstock to gas in South Africa.) Each of the Chinese plants would be four times as large as the existing Sasol plant, and scaling up can involve difficulties. If Sasol can make these larger plants work at the publicised costs, this technology could be used by many other nations - rich and poor - who are willing to forego periods of very cheap oil for more security. (Indeed, even oil-producing Indonesia is looking into a coal-to-liquids plant as it now imports oil.)

This technology also works in converting coal to natural gas at a cost of US$3 to US$3.50 per million BTUs (British thermal units). Since current natural-gas prices in the US are roughly double that, it would appear that coal-to-gas is also an economically viable technology.

The coal-to-liquid technology would compete with the evolving tar-sands technology being expanded in Canada. This technology involves the production, either by mining or extracting with steam, of heavy oil trapped in sand. The heavy oil is then massaged into more valuable fuels. This source already accounts for a quarter of Canada's 3.2 million barrels per day output. It requires natural gas to heat the tar and is energy intensive, but still has production costs of under US$20 a barrel.

Tar-sand reserves are estimated at over 250 billion barrels. These and similar technologies would allow much more plentiful isolated natural-gas reserves, coal and tar sand to be converted into liquid fuels. The long-predicted decline in petroleum production could be delayed for decades or more, and the geopolitics of energy would be rewritten at something close to or below current crude-oil costs.

Is there a downside to rapidly adopting these technologies? Yes, from a global welfare perspective. Now, onshore oil-production costs are usually under US$5 a barrel. If prices are higher, somebody (the country owning the oil or the company producing it) gets the difference between the price and the cost. If we switch to US$15-$20 costs from these other technologies, then there is no surplus of price over cost, or a much smaller one. To use an economic phrase, the 'rent' on oil production is destroyed in a quest for self-sufficiency.

While true, the instability in oil prices - as well as the threat of terrorist disruptions to supply - are such that many nations might be happy to use their own resources to produce this vital input. They are no worse off if oil can be produced at US$20 a barrel, unless the price temporarily plunges below that level as it did in the late 1990s. A stable price and supply prevents very expensive disruptions.

None of this answers critics who are properly concerned with global warming. Subsidies to hybrid or other highly efficient vehicles are probably needed to reduce emissions. In the longer term, fuel cells burning hydrogen and producing only water as a waste product are promising, but still far from being economically feasible.

Overall, the coal-to-liquid technology is only one element of an integrated programme that is needed to deal with fuel security, local pollution and global-warming issues. But, even alone, it could bring an element of stability to world oil prices and thus also to the global economy. In addition, if it redirects efforts from geopolitical competition and even conflict to investment and efficiency, it is a welcome development.

The writer is an associate professor of economics at Tufts University. Rights: YaleGlobal Online, www.yaleglobal.yale.edu


TOPICS: Business/Economy; Editorial; Miscellaneous
KEYWORDS: china; coal; energy; environment; napalminthemorning; oil
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To: Tailback; KayEyeDoubleDee
Onan's a big name, their transfer boxes are pretty much the only ones used by the military at fixed sites. The military generators are built by different companies to specifications. At my next drill I'll try and get some more info.

Thanks. I'd take any info you can get. I glanced at the Onan website, and it looks very interesting.

PS: Do you know if these generators can accomodate external fuel tanks? To be a true survivalist/anti-establishmentarian, it seems like you'd need something on the order of a 500 or 1000 gallon external diesel tank. Plus, it would be nice, for fire and/or explosive reasons, to separate the tank off into its own explosive chamber [with, say, a wall that was heavily fortified in the direction of your living structure, but lightly fortified in the direction away from your living structure, so that any potential explosion would be directed away from you]. Furthermore, with an external fuel tank, if you did get a fire, it could [at least hopefully] be contained within the generator itself, and wouldn't [necessarily] cause the tank to also go ka-boom.

41 posted on 07/26/2004 10:37:40 AM PDT by SlickWillard
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To: SlickWillard

Our generators have external fuel supply connectors. We use either 55 gallon drums, fuel bladders, or 600 gallon trailers. It's just a simple hose connection so you can use pretty much any type of supply tank. It's best to have gravity helping you out because the transfer pump is pretty small.

I'll try do remember to look up this post when I get back around the 20th of August. If I forget you can Freepmail me.


42 posted on 07/26/2004 10:50:50 AM PDT by Tailback
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To: MainFrame65

I don't understand why new-generation diesels, which are very common in Europe, have not been imported here. Take the Audi A2- 78.6 MPG!

http://www.audiworld.com/model/a2.html


43 posted on 07/26/2004 11:09:35 AM PDT by armydoc
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To: armydoc

As I understand it, diesels have a much narrower power range than gasoline engines - that is, they do not operate as efficiently outside of a narrow RPM range centered around their optimum RPM, where gasoline engines idle more easily AND operate better at high and low RPMs, probably because the ignition timing can be optimized by adjusting the spark, not possible with a diesel.


44 posted on 07/26/2004 2:46:18 PM PDT by MainFrame65
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To: Baby Bear
The world is probably following an exactly optimal course.

Use the easily available fossil oil to build infrastructure, technology, and experience

As fossil oil becomes more difficult to extract and insufficient to meet needs, switch to coal, gas, and biomass to oil. At first just supplement oil then replace it.

Coal, gas, and Biomass are far larger and more distributed resources - should take the edge off competition for energy.

Thermal Deploymerization may be applied to coal. The patents claims to strip out the carbon as a powder leaving pure liquid hydrocarbons

www.thermaldepolmerization.org

Energy like all other commodities will settle back in long term trend toward zero cost - which is what drives rising living standards.

I predict in 50 years all people will be part of mainstream world economy and that economy will be 50 times bigger than it is now with energy use maybe 15 times bigger. Air Cars, Space travel, Life extension, 3D movies - etc

Long term - say past 100 years anything could happen - we (they:)) could all have personal fusion reactors.

Not to worry there is no way the world will run out of energy
45 posted on 08/02/2004 8:57:16 PM PDT by jet55
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To: Baby Bear

Tension rises as China scours the globe for energy
The Telegraph ^ | 19/11/2004 | Richard Spencer
Posted on 11/19/2004 7:34:07 PM PST by demlosers
http://www.freerepublic.com/focus/news/1284404/posts


46 posted on 11/21/2004 6:56:27 PM PST by SunkenCiv ("All I have seen teaches me trust the Creator for all I have not seen." -- Emerson)
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Anything into Oil(solution to dependence on foregn oil?)
DISCOVER Vol. 24 No. 5 | May 2003 | Brad Lemley
Posted on 04/21/2003 5:57:41 AM PDT by honway
http://www.freerepublic.com/focus/f-news/897232/posts


47 posted on 03/25/2005 10:45:09 PM PST by SunkenCiv (last updated my FreeRepublic profile on Friday, March 25, 2005.)
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