Effects of water on the removal of methyl bromide using triethylene diamine impregnated carbon

Gregory W. Peterson; Joseph A. Rossin; Philip B. Smith; George W. Wagner

doi:10.1016/j.carbon.2009.08.038

Effects of water on the removal of methyl bromide using triethylene diamine impregnated carbon

Gregory W. Peterson, Joseph A. Rossin, Philip B. Smith, George W. Wagner

Huck Institutes of the Life Sciences

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

The removal of methyl bromide (CH₃Br) from streams of dry and humid air was investigated using coconut shell carbon impregnated with triethylene diamine (TEDA). The relative humidity of the air stream had a significant effect on the CH₃Br breakthrough time, but not the removal capacity, especially as the relative humidity of the air stream was increased to greater than 50%. The decrease in the breakthrough time was attributed to an increased in the amount of water physically adsorbed by the carbon substrate, leading to a significant decrease in the CH₃Br adsorption capacity. NMR results revealed TEDA was reacting directly with CH₃Br, leading to the formation of primarily a mono-substituted quaternary amine, with only small amounts of the di-substituted quaternary amine detected.

Original language	English (US)
Pages (from-to)	81-88
Number of pages	8
Journal	Carbon
Volume	48
Issue number	1
DOIs	https://doi.org/10.1016/j.carbon.2009.08.038
State	Published - Jan 1 2010

All Science Journal Classification (ASJC) codes

Chemistry(all)
Materials Science(all)

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title = "Effects of water on the removal of methyl bromide using triethylene diamine impregnated carbon",

abstract = "The removal of methyl bromide (CH3Br) from streams of dry and humid air was investigated using coconut shell carbon impregnated with triethylene diamine (TEDA). The relative humidity of the air stream had a significant effect on the CH3Br breakthrough time, but not the removal capacity, especially as the relative humidity of the air stream was increased to greater than 50%. The decrease in the breakthrough time was attributed to an increased in the amount of water physically adsorbed by the carbon substrate, leading to a significant decrease in the CH3Br adsorption capacity. NMR results revealed TEDA was reacting directly with CH3Br, leading to the formation of primarily a mono-substituted quaternary amine, with only small amounts of the di-substituted quaternary amine detected.",

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T1 - Effects of water on the removal of methyl bromide using triethylene diamine impregnated carbon

AU - Peterson, Gregory W.

AU - Rossin, Joseph A.

AU - Smith, Philip B.

AU - Wagner, George W.

PY - 2010/1/1

Y1 - 2010/1/1

N2 - The removal of methyl bromide (CH3Br) from streams of dry and humid air was investigated using coconut shell carbon impregnated with triethylene diamine (TEDA). The relative humidity of the air stream had a significant effect on the CH3Br breakthrough time, but not the removal capacity, especially as the relative humidity of the air stream was increased to greater than 50%. The decrease in the breakthrough time was attributed to an increased in the amount of water physically adsorbed by the carbon substrate, leading to a significant decrease in the CH3Br adsorption capacity. NMR results revealed TEDA was reacting directly with CH3Br, leading to the formation of primarily a mono-substituted quaternary amine, with only small amounts of the di-substituted quaternary amine detected.

AB - The removal of methyl bromide (CH3Br) from streams of dry and humid air was investigated using coconut shell carbon impregnated with triethylene diamine (TEDA). The relative humidity of the air stream had a significant effect on the CH3Br breakthrough time, but not the removal capacity, especially as the relative humidity of the air stream was increased to greater than 50%. The decrease in the breakthrough time was attributed to an increased in the amount of water physically adsorbed by the carbon substrate, leading to a significant decrease in the CH3Br adsorption capacity. NMR results revealed TEDA was reacting directly with CH3Br, leading to the formation of primarily a mono-substituted quaternary amine, with only small amounts of the di-substituted quaternary amine detected.

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Effects of water on the removal of methyl bromide using triethylene diamine impregnated carbon

Abstract

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