Kinetics of adsorption and desorption of some organochlorine compounds on black carbon in a sediment

Vrind, Bea A.; Hulscher, Theodora E. M. ten; Noort, Paul C.M. van

doi:10.1897/05-405r.1

Cited by 19 publications

(16 citation statements)

References 27 publications

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“…It is thought that this could be one of the factors that had an influence on the increase in the sorption amount by the bamboo charcoal. The sorption and desorption of organic compounds on sorptive building materials are determined by the gas-phase Langmuir isotherm equation [10,[31][32][33]. The HCHO saturation sorption values for the building materials was predicted by the Langmuir model when exposed in a HCHO concentration of 100 mg m -3 , which is the guideline value for HCHO set by WHO.…”

Section: Resultsmentioning

confidence: 99%

Long/Short-Term Performance Test for Evaluating the Reduction of Indoor Formaldehyde Using Sorptive Building Materials

Seo

Ataka

Kato

et al. 2012

Indoor and Built Environment

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Key WordsFormaldehyde E Test method E Sorptive building material E Concentration reduction In this paper, a test method for evaluating the ability of sorptive building materials to reduce the concentration of formaldehyde is examined. The authors developed a new method that uses a small chamber to test the suppressive effect of sorptive building material on formaldehyde-emitting materials. Two small chambers were prepared, with the formaldehyde-emitting building material placed in one chamber and a composite building material comprised of sorptive building material attached to the formaldehyde-emitting building material in the other. The formaldehyde emission factors of the two chambers were compared, and the equivalent ventilation rate Q ads was calculated. The test method would enable the indoor concentration reducing performance and the suppressive performance of the sorptive building materials to be evaluated at the same time. The suppressive effects of several kinds of sorptive building materials were examined, and accordingly the validity of the test method was verified. The continuous reduction performance of indoor formaldehyde for sorptive building materials using sorption breakthrough capacity method was also evaluated.

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Section: Resultsmentioning

confidence: 99%

Long/Short-Term Performance Test for Evaluating the Reduction of Indoor Formaldehyde Using Sorptive Building Materials

Seo

Ataka

Kato

et al. 2012

Indoor and Built Environment

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“…Recent studies have shown that the hysteresis is most likely attributable to the entrapment of sorbing molecules within highly condensed organic carbon and to slow desorption (Ran et al, 2003;Vrind et al, 2006). In the desorption stage, the aqueous-phase solute concentration decreased abruptly, and rates of such diffusion processes became accordingly slower, which may result in apparent rate-related desorption hysteresis.…”

Section: Sorption and Desorption Isothermsmentioning

confidence: 99%

“…More recently, it was reported that the sorption of the sorbate molecules may cause the deformation of SOC, also resulting in sorptiondesorption hysteresis (Lu and Pignatello, 2002;Weber et al, 2002;Wu and Sun, 2010). As for the desorption, most studies had focused on the desorption kinetics (Vrind et al, 2006;Morelis and van Noort, 2008;Xu et al, 2010), of which experiments were carried out at a single-level initial HOC concentration. Hence, desorption isotherms could not be constructed, and the concentration dependence of desorption behavior was not investigated in detail.…”

Section: Introductionmentioning

confidence: 99%

Characteristics and influencing factors of tetrachloroethylene sorption–desorption on soil and its components

Qiu

Yang

et al. 2016

Chemosphere

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“…The sorbent fractions in natural sediment consist of organic matters and inorganic matters, in which the solid organic matter (SOM) including amorphous organic carbon and condensed organic carbon is considered primarily to control the sorption of HOCs [2,4,5].…”

Section: Introductionmentioning

confidence: 99%

Sorption mechanisms of coexisting PAHs on sediment organic fractions

Zhang

Wang

Niu

2011

Environmental Toxicology and Chemistry

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Sorption of polycyclic aromatic hydrocarbons (PAHs) to natural sediment and isolated organic fractions, including demineralized organic matter (DM), condensed organic matter (COM), and black carbon (BC), was investigated to provide insight into sorption mechanisms. The organic carbon normalized distribution coefficient K(OC) measured for DM was 0.8 to 3.0 times higher than that of bulk sediment, indicating the physical protection of favorable PAH sorption domains by mineral conformation; that is, mineral enwrapping was supposed to prevent physically the accessing process of the sorbate molecules to the sorption domain. Surface area-normalized K(OC) values showed that the differences between COM and BC in the sorption capability were caused largely by their surface areas, additionally indicating the importance of solid physical structure. In considering specific interactions, mature organic fractions with polyaromatic sheets were implied to be affected by π-π interaction, whereas the DM sample that contained the electron-repulsive N-H group hardly sorbed PAHs via this interaction. Besides sorbent characteristics, PAH properties were also assumed to influence the sorption process. The hydrophobicity normalized sorption coefficient increased in the order of fluoranthene> phenanthrene> pyrene> fluorine> acenaphthene, with pyrene showing an exceptional order.

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Kinetics of adsorption and desorption of some organochlorine compounds on black carbon in a sediment

Cited by 19 publications

References 27 publications

Long/Short-Term Performance Test for Evaluating the Reduction of Indoor Formaldehyde Using Sorptive Building Materials

Long/Short-Term Performance Test for Evaluating the Reduction of Indoor Formaldehyde Using Sorptive Building Materials

Characteristics and influencing factors of tetrachloroethylene sorption–desorption on soil and its components

Sorption mechanisms of coexisting PAHs on sediment organic fractions

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