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    Mongabay, a leading resource for news and perspectives on environmental and conservation issues related to the tropics, has launched Tropical Conservation Science - a new, open access academic e-journal. It will cover a wide variety of scientific and social studies on tropical ecosystems, their biodiversity and the threats posed to them. Tropical Conservation Science - March 8, 2008.

    At the 148th Meeting of the OPEC Conference, the oil exporting cartel decided to leave its production level unchanged, sending crude prices spiralling to new records (above $104). OPEC "observed that the market is well-supplied, with current commercial oil stocks standing above their five-year average. The Conference further noted, with concern, that the current price environment does not reflect market fundamentals, as crude oil prices are being strongly influenced by the weakness in the US dollar, rising inflation and significant flow of funds into the commodities market." OPEC - March 5, 2008.

    Kyushu University (Japan) is establishing what it says will be the world’s first graduate program in hydrogen energy technologies. The new master’s program for hydrogen engineering is to be offered at the university’s new Ito campus in Fukuoka Prefecture. Lectures will cover such topics as hydrogen energy and developing the fuel cells needed to convert hydrogen into heat or electricity. Of all the renewable pathways to produce hydrogen, bio-hydrogen based on the gasification of biomass is by far both the most efficient, cost-effective and cleanest. Fuel Cell Works - March 3, 2008.


    An entrepreneur in Ivory Coast has developed a project to establish a network of Miscanthus giganteus farms aimed at producing biomass for use in power generation. In a first phase, the goal is to grow the crop on 200 hectares, after which expansion will start. The project is in an advanced stage, but the entrepreneur still seeks partners and investors. The plantation is to be located in an agro-ecological zone qualified as highly suitable for the grass species. Contact us - March 3, 2008.

    A 7.1MW biomass power plant to be built on the Haiwaiian island of Kaua‘i has received approval from the local Planning Commission. The plant, owned and operated by Green Energy Hawaii, will use albizia trees, a hardy species that grows in poor soil on rainfall alone. The renewable power plant will meet 10 percent of the island's energy needs. Kauai World - February 27, 2008.


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Monday, May 28, 2007

Green designer coal: more on hydrothermal carbonisation of biomass

Previously we had a look at the work of German scientists from the Max Planck Institute who developed a simple but ingenious and efficient way to produce renewable coal from biomass, called hydrothermal carbonisation. The potential for this technology is so large that some think it could cover countries' entire energy needs and may lower the reliance on climate destructive coal. An example: if the 70 million tonnes of biomass that Germany produces every year were to be converted into 'bio-coal', this would be sufficient to cover the country's entire energy needs.

What is more the green coal can be designed according to specific needs: it can be made to resemble hard coal for use in traditional power plants, converted into liquid fuels or mimic carbon-rich top-soil that can boost the fertility of nutrient-poor soils. Ultimately a carbon fuel cell could be envisioned in which the bio-based black powder would be converted into electricity without being burned. This would avoid the drawbacks of fuel cells that make use of a gas like hydrogen that is difficult to handle.

In "A Stroke of Genius? A New Recipe for Coal" the Deutsche Welle has an interesting talk with Markus Antonietti (photo), director of the Max Planck Institute for Colloid and Interface Research who helped design the conversion process. A video is available, in which the researcher describes the process as follows:
Biomass goes into the autoclave, a kind of pressure cooker. Leaves, pine cones and other plant residues are put into the pot. Water goes in, too, along with a citric acid catalyst. The mixture releases a lot of heat - in other words, energy.
We underestimated this when we started. We could calculate how much energy was stored in the sugar - in the leaf material. But the first time - as you see - we had a runaway reaction, which is obviously dangerous, so we need to carry it out under safe conditions.
It really is a simple reaction. The ingredients just have to be heated for 12 hours at 180 degrees Celsius. And the coal is ready. The single major by-product of the reaction is water, which can filtered off. In contrast to other biomass techniques this reaction does not generate carbon dioxide. And it gives a higher-energy product, which even smells acceptable.
Could this laboratory coal be produced on a large scale? According to Antonietti, it makes economic sense. If it were up to him the 50,000 tonnes of plant refuse that accumulate yearly in Berlin would be converted into 20,000 tonnes of usable carbon. The energy needed for the heating is no greater that that required by other bioconversion methods. Until that day comes, the Max Planck scientists intend to go on with their research. They want to study their laboratory coal in detail.

Because not all coal is alike. The researchers can adjust the bio-coal to be just a bit refined, or they can cook it until it's like hard coal. One end of the spectrum is topsoil, the other is anthracite. This opens new perspectives: a nutrient-rich earth-like coal can be used to help barren landscapes bloom; soft lignite can be burned in efficient CHP plants, whereas hard coal may be used in large existing power plants.

Markus Antonietti's team is now going to work on the transformation of the bio-coal into synthetic petroleum ('bio-coal to liquids') but the ultimate goal is to design a carbon fuel cell that would directly convert the bio-coal via an electrochemical process [entry ends here].
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2 Comments:

Anonymous Anonymous said...

Absolutly wonnderful hope he has filed patent Big oil Shell/Virent seem to be streets ahead see Green Car congress on APR(Aquaeous Phase Reforming)

9:56 PM  
Anonymous Agic said...

We develop the first HTC- Biology- Green-Powerplant in the world. The power will be 1MWelec. and its need 16000t Biomass

11:44 PM  

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