A new desorption method for removing organic solvents from activated carbon using surfactant

[Abstract]: [Objectives]: A new desorption method was investigated, which does not require toxic organic solvents. Efficient desorption of organic solvents from activated carbon was achieved with an ananionic surfactant solution, focusing on its washing and emulsion action. [Methods]: Isopropyl alco...

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Bibliographic Details
Published in:Journal of Occupational Health 2017-03, Vol.59 (2), p.194-200
Main Authors: Hinoue, Mitsuo, Ishimatsu, Sumiyo, Fueta, Yukiko, Hori, Hajime
Format: Article
Language:English
Subjects:
2-Propanol - analysis
2-Propanol - chemistry
Acetic acid
Acetone
Activated carbon
Adsorbents
Adsorption
Alcohols
Benzene
Benzenesulfonic acids
Butanones - analysis
Butanones - chemistry
Carbon
Charcoal
Chemistry Techniques, Analytical
Chromatography, Gas
Desorption
Dichloromethane
Efficiency
Emulsification
Environmental Monitoring - methods
Ethyl acetate
Gas chromatography
Hydrocarbons
Ionization
Ionization counters
Isopropanol
Isopropyl alcohol
Methyl ethyl ketone
Occupational health
Organic Chemicals - analysis
Organic Chemicals - chemistry
Organic solvent
Organic solvents
Original
Pollutants
Salts
Sensors
Sodium
Sodium dodecyl sulfate
Sodium Dodecyl Sulfate - administration & dosage
Sodium lauryl sulfate
Sodium salts
Solvents
Solvents - analysis
Sulfonic acid
Sulfonic Acids - administration & dosage
Surface-Active Agents - administration & dosage
Surfactant
Surfactants
Temperature
Temperature effects
Toluene
Toluene - analysis
Toluene - chemistry
Work environment
Xylene
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Summary:[Abstract]: [Objectives]: A new desorption method was investigated, which does not require toxic organic solvents. Efficient desorption of organic solvents from activated carbon was achieved with an ananionic surfactant solution, focusing on its washing and emulsion action. [Methods]: Isopropyl alcohol (IPA) and methyl ethyl ketone (MEK) were used as test solvents. Lauryl benzene sulfonic acid sodium salt (LAS) and sodium dodecyl sulfate (SDS) were used as the surfactant. Activated carbon (100 mg) was placed in a vial and a predetermined amount of organic solvent was added. After leaving for about 24 h, a predetermined amount of the surfactant solution was added. After leaving for another 72 h, the vial was heated in an incubator at 60℃ for a predetermined time. The organic vapor concentration was then determined with a frame ionization detector (FID)-gas chromatograph and the desorption efficiency was calculated. [Results]: A high desorption efficiency was obtained with a 10% surfactant solution (LAS 8%, SDS 2%), 5 ml desorption solution, 60℃ desorption temperature, and desorption time of over 24 h, and the desorption efficiency was 72% for IPA and 9% for MEK. Under identical conditions, the desorption efficiencies for another five organic solvents were investigated, which were 36%, 3%, 32%, 2%, and 3% for acetone, ethyl acetate, dichloromethane, toluene, and m-xylene, respectively. [Conclusions]: A combination of two anionic surfactants exhibited a relatively high desorption efficiency for IPA. For toluene, the desorption efficiency was low due to poor detergency and emulsification power.
ISSN:1341-9145
1348-9585
1348-9585
DOI:10.1539/joh.16-0214-OA