Cleaner, more efficient method for capturing C[O.sub.2].

* Researchers at Lawrence Livermore National Laboratory Lawrence Livermore National Laboratory: see Lawrence Berkeley National Laboratory.

(body) Lawrence Livermore National Laboratory - (LLNL) A research organaisatin operated by the University of California under a contract with the US Department of Energy. have developed a screening method that would use ionic liquids--a special type of molten salt Molten salt may refer to:

Molten salt battery, a class of primary cell and secondary cell high temperature electric battery that use molten salts as an electrolyte
Molten salt reactor, a type of nuclear reactor where the primary coolant is a molten salt

that becomes liquid under the boiling point boiling point, temperature at which a substance changes its state from liquid to gas. A stricter definition of boiling point is the temperature at which the liquid and vapor (gas) phases of a substance can exist in equilibrium. of water (100 degrees Celsius)--to separate carbon dioxide carbon dioxide, chemical compound, CO₂, a colorless, odorless, tasteless gas that is about one and one-half times as dense as air under ordinary conditions of temperature and pressure. from its source.

This is a cleaner, more viable and stable method than what is currently available, said a Livermore news release.

Before C[O.sub.2] emissions from burning fossil fuels can be sequestered se·ques·ter
v. se·ques·tered, se·ques·ter·ing, se·ques·ters

v.tr.
1. To cause to withdraw into seclusion.

2. To remove or set apart; segregate. See Synonyms at isolate.

3. , they must first be separated from the source, a step known as "capture."

Currently, a handful of coal plants with commercial C[O.sub.2] capture capability use processes based on chemical absorption with monoethanolamine, a general-purpose solvent developed by chemists some 75 years ago. According to Livermore researchers, this method is corrosive, requires the use of large equipment, and effective only under low to moderate partial pressures of C[O.sub.2].

Chemists recently became interested in ionic liquids because they are solvents with almost no vapor pressure vapor pressure, pressure exerted by a vapor that is in equilibrium with its liquid. A liquid standing in a sealed beaker is actually a dynamic system: some molecules of the liquid are evaporating to form vapor and some molecules of vapor are condensing to form liquid. , and do not evaporate, even under high temperature conditions.

A Livermore scientist devised a computational strategy that can reliably screen any solvent, including an ionic liquid, for high C[O.sub.2] capture efficiency. The expectation is that the accuracy of the computational method will allow scientists to see useful trends, which could potentially lead to the discovery of practical solvents with significantly higher C[O.sub.2] capture efficiency.

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Title Annotation:	TECH TALK
Comment:	Cleaner, more efficient method for capturing C[O.sub.2].(TECH TALK)
Publication:	National Defense
Date:	Oct 1, 2009
Words:	233
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