Chris Turney -- carbonscape -- Microwave Biochar

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**Christian TURNEY**

**Microwave BioChar**

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**Carbonscape Ltd**

[**http://www.carbonscape.com**](http://www.carbonscape.com)

**P.O. Box 55**   
**Blenheim**   
**New Zealand**

**Phone -- +64 3 579-2273**   
**Fax --  +64 3 579-2273**

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![](carbonscape.jpg)

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[**http://www.fridayoffcuts.com/dsp\_newsletter.cfm?id=292#6**](http://www.fridayoffcuts.com/dsp_newsletter.cfm?id=292#6)

**Kiwi Company Claims World First for
Charcoal**

A world-first invention was unveiled in Blenheim
in New Zealand this week with a multi-billion dollar earning
potential and the ability to impact on carbon capture on a
global scale. Carbonscape has developed and patented a process
for manufacturing charcoal using microwave energy - a vastly
more energy efficient process than what is currently used.

The company has begun batch-scale production but
hopes to raise capital to scale up to a fully-integrated
continuous production. Carbonscape says that its technology
can address existing biowaste streams and that it has been
invited to its their technology on pine waste on site in
commercial forests.

The company is also fielding international
approaches, including a United States interest looking at
using corn waste as a raw material for charcoal production.
Carbonscape's unit traps the carbon fixed in waste plant
material in the form of charcoal, which can be returned to the
soil as biochar.

The invention came about when scientist
Professor Chris Turney was attempting to cook dinner in a
hurry and accidentally blew up the family microwave. He
realised he had created pure carbon, and immediately saw its
potential in the marketplace.

Carbonspace's prototype machine, dubbed "the
black phantom" was manufactured by a local design and
engineering team, and can be fitted into a 40-foot shipping
container. This means that it can be taken into remote places.

"It is also possible to use the technology on a
large scale either by combining several smaller plants or by
scaling up to one big unit," says Carbonscape director Nick
Gerritsen. "It could be set up on a forestry skid site with a
generator," he says. "This means that wood waste could be
processed on-site leaving the forest owner with only the
finished charcoal to transport out of the forest." Source:
Carbon News 200

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**WO2008079029**   
**METHOD OF SEQUESTERING CARBON DIOXIDE**

2008-07-03   
Inventor: TURNEY CHRISTIAN STEWART MACGR (NZ); TURNEY IAN
STEWART (NZ)   
Applicant: CARBONSCAPE LTD (NZ); TURNEY CHRISTIAN STEWART
MACGR (NZ); TURNEY IAN STEWART (NZ)   
Cited documents:  JP2004148176 // JP2004239187 //
US4118282

**Abstract** --  The invention provides
a method for sequestering carbon dioxide. The method comprises
cutting organic material into chips, carbonising the chips of
organic material by applying microwave energy and storing the
resulting charcoal in a carbon sink.

![](wo1.jpg)

![](wo2.jpg)

![](wo3.jpg)

![](wo4.jpg)

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[**http://www.celsias.com/article/carbonscape-potential-fixing-carbon/**](http://www.celsias.com/article/carbonscape-potential-fixing-carbon/)

**Carbonscape: The Potential for Fixing
Carbon**

**by**

**Chris Turney**

( Author of *Ice, Mud and Blood: Lessons from Climates
Past* )

As with all great stories it began with a
potato. Longer ago than I care to admit, there was a time when
I was a young and foolish teenager. Left at home on one of the
rare occasions my parents went out, I got it into my thick
skull to microwave a potato. Having no idea what to do, the
timer was set to a shockingly high 40 minutes. The inevitable
result was a dead microwave and a glowing black lump where the
potato had once been. It was one of those painful experiences
in life that one tries to forget but years later it opened up
a line of thought. We need to get the amount of greenhouse
gases in the atmosphere down, and fast. Could microwaving
plant material help? Using patented technology, Ive been
working with a team to set up a new company called Carbonscape
which is doing just that.

As many readers will know, technology now exists
to capture carbon dioxide (CO2) direct from any major source
that emits the offending gas. The crucial point is that the
carbon dioxide can be captured and stored underground; an
approach commonly referred to Carbon Capture and Storage (or
CCS). This does sound rather wonderful but unfortunately there
are still major problems. There are very real concerns that
CCS may not be the environmental solution its cracked up to
be: this technology only deals with greenhouse gas emissions
produced by large single sources, such as power stations,
while the captured gases that are supposedly stored have the
potential of escaping back to the atmosphere. If this wasnt
enough, CCS wont become commercially available for at least
another decade and can only capture carbon dioxide being
released in the future; it does nothing to claw back the CO2
that is already in the atmosphere.

Using photosynthesis, plants are remarkably
efficient absorbers of carbon dioxide. One alternative
approach is to utilise natural sinks for sequestering carbon.
Forests are one possibility. The potential of the terrestrial
biosphere is enormous. Consider the figures. Each year we emit
8 billion tonnes of carbon. In contrast, 120 billion tonnes of
carbon are sucked out of the atmosphere each year by
photosynthesis on land. Unfortunately for us, all of this is
pretty much returned to the atmosphere through respiration and
decomposition of plant material.

charcoalFortunately, however, we know from
scientific studies that charcoal can store carbon for
thousands of years. Ancient fires preserved in archaeological
sites, including those found with ancient human remains, show
carbon can be stable for thousands of years. This is because
charcoal is highly resistant to microbial breakdown. Once
formed, the charcoal effectively keeps the carbon out of the
atmosphere and ocean for virtually indefinite periods.

Weve taken this idea a step further at
Carbonscape. Developing an industrial-scale unit, were
converting wood waste and other biomass into charcoal. Our
proprietary industrial microwave technology means that in
spite of the energy used during production, the carbon
captured draws down significantly more carbon dioxide from the
atmosphere than it produces. Each industrial-scale unit
converts 40-50% of wood debris into charcoal; one tonne of
carbon dioxide can be fixed as charcoal per day. By converting
carbon in organic material to charcoal, it can be then put
into the ground where it does the most good.

At Carbonscape we hope were adding a new
commercial reason for reforestation. Once wood has been turned
into charcoal, the cleared area can be replanted, allowing us
to repeat the process when the plants have matured,
effectively sucking yet more carbon dioxide out of the
atmosphere. A great example is the USA: if the 200 million
hectares of forest used for timber production were turned to
charcoal instead, each crop rotation would help bring carbon
dioxide levels down by some 10 parts per million. And its not
just potatoes or wood that can be turned into charcoal: other
organic material (even sewage) can be turned into a permanent
carbon sink.

The possibilities for fixing carbon are truly
enormous.

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[**http://agron.scijournals.org/cgi/content/full/100/1/178**](http://agron.scijournals.org/cgi/content/full/100/1/178)

**Agron J 100:178-181 (2008)**   
DOI: 10.2134/agrojnl2007.0161

**The Charcoal Vision: A WinWinWin
Scenario for Simultaneously Producing Bioenergy,
Permanently Sequestering Carbon, while Improving Soil
and Water Quality**

**David A. Laird\***

USDA, ARS, National Soil Tilth Laboratory, 2150
Pammel Dr., Ames, IA 50011   
\* Corresponding author (david.laird@ars.usda.gov).

Processing biomass through a distributed network
of fast pyrolyzers may be a sustainable platform for producing
energy from biomass. Fast pyrolyzers thermally transform
biomass into bio-oil, syngas, and charcoal. The syngas could
provide the energy needs of the pyrolyzer. Bio-oil is an
energy raw material (~17 MJ kg1) that can be burned to
generate heat or shipped to a refinery for processing into
transportation fuels. Charcoal could also be used to generate
energy; however, application of the charcoal co-product to
soils may be key to sustainability. Application of charcoal to
soils is hypothesized to increase bioavailable water, build
soil organic matter, enhance nutrient cycling, lower bulk
density, act as a liming agent, and reduce leaching of
pesticides and nutrients to surface and ground water. The
half-life of C in soil charcoal is in excess of 1000 yr.
Hence, soil-applied charcoal will make both a lasting
contribution to soil quality and C in the charcoal will be
removed from the atmosphere and sequestered for millennia.
Assuming the United States can annually produce 1.1 x 109 Mg
of biomass from harvestable forest and crop lands, national
implementation of The Charcoal Vision would generate enough
bio-oil to displace 1.91 billion barrels of fossil fuel oil
per year or about 25% of the current U.S. annual oil
consumption. The combined C credit for fossil fuel
displacement and permanent sequestration, 363 Tg per year, is
10% of the average annual U.S. emissions of CO2C.

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