Steady-State and Dynamic Desorption of Organic Vapor from Activated Carbon with Electrothermal Swing Adsorption

Emamipour, Hamidreza; Hashisho, Zaher; Cevallos, Diego; Rood, Mark J.; Thurston, Deborah L.; Hay, K. James; Kim, Byung J.; Sullivan, Patrick

doi:10.1021/es0703022

Cited by 32 publications

(19 citation statements)

References 11 publications

(19 reference statements)

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“…The MSA system was found to successfully adsorb organic vapors from the airstreams, allowing for rapid regeneration of the ACC cartridge, and for the recovery of water and organic vapors as liquids. Emamipour et al [190] developed and tested a method to achieve steady-state and dynamic-tracking desorption of organic compounds from activated carbon in a bench-scale system, also exploring use of microwaves for regeneration. Activated carbon fiber cloth was used to adsorb methyl ethyl ketone (MEK) from air streams.…”

Section: Organic Gaseous Pollutants and Regeneration Of Activated Carmentioning

confidence: 99%

Development and Environmental Applications of Activated Carbon Cloths

Cukierman

2013

ISRN Chemical Engineering

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Activated carbon cloths have received growing attention because they offer comparative advantages over the traditional powdered or granular forms of this well-known adsorbent, providing further potential uses for technological innovations in several fields. The present article provides an overview of research studies and advances concerned with the development of activated carbon cloths and their use as adsorbent in environmental applications, mostly reported in the last years. The influence of some fabrics and textile wastes used as precursors, and of main activation process variables on the development and physicochemical, mechanical and/or electrical properties of the resulting activated carbon cloths are first reviewed. Then, investigations dealing with the removal of water and air pollutants by adsorption onto activated carbon cloths, including advances toward optimizing their regeneration after organic vapors saturation, are presented.

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Section: Organic Gaseous Pollutants and Regeneration Of Activated Carmentioning

confidence: 99%

Development and Environmental Applications of Activated Carbon Cloths

Cukierman

2013

ISRN Chemical Engineering

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“…It is reported that the long-term exposure to volatile organic compounds (VOCs) causes health defects such as eye and throat irritation, allergies, damage on the liver and central nervous system, etc. [Ruddy et al, 1993;Emamipour et al, 2007;Mallouk et al, 2010;Johnsen et al, 2011;Das et al, 2004]. Due to these health effects of VOCs, it is important to remove them from indoor and outdoor air.…”

Section: Introductionmentioning

confidence: 99%

“…Due to these health effects of VOCs, it is important to remove them from indoor and outdoor air. There are various methods to remove VOCs such as condensation, adsorption, catalytic oxidation and thermal oxidation [Ruddy et al, 1993;Emamipour et al, 2007;Mallouk et al, 2010;Johnsen et al, 2011;Das et al, 2004;Rafson, 1998]. Ruddy and Carrol (1) have summarized the comparative performances of these techniques regarding their advantages, limitations and operating costs.…”

Section: Introductionmentioning

confidence: 99%

Comparison of Ethylene Adsorption onto Activated Carbon Cloth and Granulated Activated Carbon in Dynamic Phase

Sivri¹

2019

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“…Furthermore, ACFC can be used upstream of a secondary air pollution control device such as a biofilter or a thermal oxidizer to control the concentration of the gas fed to the secondary device. The ACFC system can be operated based on user-defined constant or dynamic set-points to enhance the overall control efficiency (Emamipour et al 2007;Hashisho et al 2008).…”

Section: Introductionmentioning

confidence: 99%

Novel activated carbon fiber cloth filter with functionalized silica nanoparticles for adsorption of toxic industrial chemicals

et al. 2015

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Toxic industrial chemicals (TICs) are used for various civilian and military operations but can be hazardous to humans. There is interest in developing filters that can remove a wide range of airborne TICs (e.g., basic, acidic, organophosphate, and aromatic compounds) to reduce exposure in the work place and from terrorist attacks. A regenerable TIC air filter is particularly desirable because it removes the need for costly filter disposal and replacement. This study evaluates commercially available activated carbon fiber cloth (ACFC) and ACFC that has been modified with functionalized nanoparticles for their abilities to adsorb select TICs and for the regenerability of the adsorbents. The unmodified and modified ACFC samples were tested here for their ability to adsorb anhydrous ammonia (NH 3 ), hydrogen cyanide (HCN), and dimethyl methylphosphonate (DMMP) in dry and humid gas streams as representative basic, acidic, and organophosphate compounds, respectively. The unmodified ACFC was not an effective adsorbent for NH 3 (i.e., 2 and 3.1 mg NH 3 /g ACFC at 1000 ppm v NH 3 in dry and humid air respectively) or HCN (no detectable adsorption), but successfully adsorbed 840 mg DMMP/g ACFC at 100 ppm v DMMP. The modified ACFC showed significant improvements for NH 3 and HCN adsorption in dried air (i.e., 19.5 mg NH 3 /g ACFC at 1000 ppm v NH 3 and 4.7 mg HCN/g ACFC at 150 ppm v HCN, respectively) and in humid air (i.e., 41.4 mg NH 3 /g ACFC at 1000 ppm v NH 3 and 1.6 mg HCN/g ACFC at 50 ppm v HCN, respectively) when compared to the unmodified sample. The modified ACFC also showed 2-5 % degradation of its initial dry mass after regeneration and then showed no detectable degradation. The modified ACFC also had similar electrical resistance to that of unmodified ACFC (i.e., within 1 %), indicating that it can be regenerated using electrothermal heating.

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Steady-State and Dynamic Desorption of Organic Vapor from Activated Carbon with Electrothermal Swing Adsorption

Cited by 32 publications

References 11 publications

Development and Environmental Applications of Activated Carbon Cloths

Development and Environmental Applications of Activated Carbon Cloths

Comparison of Ethylene Adsorption onto Activated Carbon Cloth and Granulated Activated Carbon in Dynamic Phase

Novel activated carbon fiber cloth filter with functionalized silica nanoparticles for adsorption of toxic industrial chemicals

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