Super Critical CO2 Turns Flyash Into Valuable Products
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Supercritical CO2 turns flyash into valuable productsSource:UFTO
Date:1/17/97 Record No.: 10422
Contact:
Roger Jones, Materials Technology Ltd.
Reno NV 702-852-2320, fax 702-852-3035
http://www.mtlstech.com
Supercritical CO2 turns flyash into valuable products
UFTO has established contact with a small company in Reno NV, Materials Technology Ltd., which has
patented a process that uses supercritical CO2 to harden and seal concrete, and turns wastes like fly ash and
sludge into materials which are strong, fireproof and waterproof.
Los Alamos National Lab has been actively testing the process for use in radioactive waste storage, and is
issuing a press release today, January 20, citing its remarkable simplicity and tremendous implications and wide
ranging applications. Stories may appear in the Wall Street Journal and elsewhere in the national press. Also see
Scientific American, November 96, page 40, for a good overview of the technology. (The article is available
online at http://www.sciam.com/1196issue/1196techbus1.html)
Basically, SC CO2 has zero surface tension, and soaks completely through materials, effecting chemical and
structural changes instantly that otherwise can take centuries (e.g., in the case of concrete--which hardens
gradually over time).
The company met recently with top officials at DOE and received an enthusiastic response. UFTO has
developed close contacts with the principals, who are looking for utilities to work with them. (One concept is to
co-locate production of these materials at power plants, and use their ash and CO2.)
The company has a Web site at http://www.mtlstech.com
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Los Alamos Press release, issued January 27, 1997:
Los Alamos paves the way for better cement
Laboratory researchers are developing an environmentally friendly process that hardens cement and creates a
new class of strong and lightweight building and fabrication materials.
The Laboratory process transforms common portland or lime cemented materials and clays by treatment with
carbon dioxide under high pressure, making them chemically stable, nearly impermeable and stronger. The
process also makes inexpensive building products out of waste materials, including fly ash from coal-burning
power plants, alum sludge from water treatment plants and blast furnace slag. Treated cement also may improve
the safe storage of radioactive waste.
The process, patented by Roger Jones Jr. of Materials Technology Limited of Reno, Nev., may lead to new
building materials, consumer goods, auto parts and other products. According to Jones, the process creates
recyclable materials that will be competitive with certain metals, plastics and wood products.
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Under increasing pressure and temperature, carbon dioxide gas first reaches a liquid phase, then enters a region
called "supercritical" where it has useful properties of both gas and liquid. Supercritical carbon dioxide expands
to fill its container and diffuses into the tiniest pores like a gas. On the other hand, because supercritical carbon
dioxide has a high density like a liquid, it can dissolve substances and carry them. In this case, it grabs water
molecules and pulls them out of the cement.
Chemically, the process converts the hydroxide of cement to a carbonate, with water as the byproduct. Thischemical reaction occurs naturally, too, but may take thousands of years.
"The cement in the Great Wall of China has not yet reached a chemically neutral state," said Craig Taylor,
principal investigator for the Labortory's Supercritical Fluids Development Center in Organic Chemistry (CST-
12). "But the supercritical carbon dioxide treatment achieves the chemically stable condition in minutes or hours.
It's not really cement anymore, but a whole new material. It is really pourable limestone."
Taylor demonstrates the effect of supercritical carbon dioxide with two chunks of bonded fly ash, a waste
product from coal-burning power plants. Set in a pan of water, the untreated sample quickly crumbles and
dissolves, obviously useless as a building material. The treated sample, however, remains impervious to thewater. Treated fly ash could make a strong, lightweight and economically attractive material for wall board,
flooring and other construction products.
Large-scale use of supercritical carbon dioxide is not new to industry. For example, commercial operations have
applied the same technology for years to make vegetable oils and to decaffeinate coffee. So Taylor does not
foresee difficulties treating large volumes of cement blocks or massive columns and slabs. Even the U.S. Air
Force has expressed interest in the technology -- for building high-strength concrete slabs for runways.
Using supercritical carbon dioxide through a high pressure nozzle, large surfaces of existing concrete structuresmight be hardened and sealed against penetration of chemicals, improving wear-resistance and durability. The
treated surfaces will resist chipping or scaling because the transition from the thin, very hard exterior to normal
strength interior concrete would be gradual.
Large amounts of carbon dioxide produced by coal and oil burning power plants and by gasoline burning cars
are blamed in part for a trend toward global warming, called the greenhouse effect. But the cement treatment
process, by permanently removing carbon dioxide from the atmosphere and locking it into building products,
actually helps reduce the impact of coal and petrochemical use. (Total curing of 2.2 pounds of cement
permanently removes about 25 gallons of carbon dioxide from the atmosphere.) Research is under way to use
both the fly ash and carbon dioxide expelled by coal-burning plants to produce construction materials.
"Like living coral, now we can take carbon dioxide out of the environment and build our houses with it. The
process is good for ourselves and good for the environment," said Taylor.
The Lab's continuing role in development of the improved cement will be to optimize treatment conditions and
help design a treatment facility. And researchers see a major new area of materials science to pursue.
"It's a new bulk material not well characterized," said Taylor. "Materials scientists will be busy with this for
decades."
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Since supercritical carbon dioxide readily dissolves many polymers, the process can be used to drive polymers
into the surfaces of products made from cements, ceramics or other water-based pastes. Polymer-impregnated
structures are better able to resist shock and impact forces and could be useful for a range of products from
buildings to auto bodies.
The Laboratory, with the only operational plutonium facility in the country, also is interested in the chemistry of
cement because radioactive waste often is mixed with cement for long-term storage and disposal. Becauseregular cement contains water, however, chemical reactions occur inside these cemented wastes, sometimes
resulting in a hazardous buildup of hydrogen gas. If the cemented waste could be treated with the supercritical
carbon dioxide process, dangerous chemical reactions would be eliminated.
The Lab's supercritical carbon dioxide research is funded internally through the Nuclear Materials Stabilization
Technologies group. Commercial research continues through agreements with Materials Technology Limited and
Custom Building Products of Seal Beach, Calif.
Topics:COAL, ENVIRONMENT, BUILDINGS
Keywords:
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