Application of thermal desorption for the identification of mercury species in solids derived from coal utilization

Rumayor, Marta; Dı́az-Somoano, Mercedes; López-Antón, M. Antonia; Martı́nez-Tarazona, M. Rosa

doi:10.1016/j.chemosphere.2014.07.010

Cited by 64 publications

(47 citation statements)

References 27 publications

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“…Also as shown in Table 1, it is reasonable to predicate that the mercury concentrations of surrounding soils will increase, if these two power plants continue to operate. The average mercury concentrations of soil samples collected 1 km away from Power Plant Baoji (606 μg/kg)33, Power Plant “A Horizon” (19,900 μg/kg)34, and Power Plant Chengdu (24,546 μg/kg)35 were much higher than those of Power Plants A (305 μg/kg) and B (383 μg/kg) in this research (Table 1). The main reason for this discrepancy should be that these three power plants have been operated for much longer than the two for this study.…”

Section: Resultsmentioning

confidence: 52%

Mercury pollution in vegetables, grains and soils from areas surrounding coal-fired power plants

Ding

et al. 2017

Sci Rep

151

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Mercury contamination in food can pose serious health risks to consumers and coal-fired power plants have been identified as the major source of mercury emissions. To assess the current state of mercury pollution in food crops grown near coal-fired power plants, we measured the total mercury concentration in vegetables and grain crops collected from farms located near two coal-fired power plants. We found that 79% of vegetable samples and 67% of grain samples exceeded the PTWI’s food safety standards. The mercury concentrations of soil samples were negatively correlated with distances from the studied coal-fired power plants, and the mercury contents in lettuce, amaranth, water spinach, cowpea and rice samples were correlated with the mercury contents in soil samples, respectively. Also, the mercury concentrations in vegetable leaves were much higher than those in roots and the mercury content of vegetable leaves decreased significantly after water rinses. Our calculation suggests that probable weekly intake of mercury for local residents, assuming all of their vegetables and grains are from their own farmland, may exceed the toxicologically tolerable values allowed, and therefore long-term consumptions of these contaminated vegetables and grains may pose serious health risks.

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Section: Resultsmentioning

confidence: 52%

Mercury pollution in vegetables, grains and soils from areas surrounding coal-fired power plants

Ding

et al. 2017

Sci Rep

151

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“…Discussion of the different mercury compounds identified in each type of sample (Table 3) is not a matter for this work and has already been described in previous studies carried out in HgTPD-1 by the authors [18,23]. Nevertheless, it is worth mentioning that in those studies red HgS and mercury bound to unburned particles (namely either Hg-OM or Hg-HA), were the main species present in the fly ashes.…”

Section: Mercury Species In Samples With a Low Carbon Contentmentioning

confidence: 83%

“…The fly ashes, namely CTL, CTA and CTP, were obtained from two pulverized coal power plants and a fluidized bed combustion plant, respectively. The characteristics of these fly ashes have been described elsewhere [18]. Two samples of gypsum (Gypsum A and Gypsum Z) were collected from the Wet Flue Gas Desulfuration Plants (WFGD) of two 1200 MW power stations.…”

Section: Samplesmentioning

confidence: 99%

“…Table 1 shows desorption temperatures for the main mercury compounds as described in the literature, obtained by using different experimental devices and conditions. The technique has been tested on a wide variety of solids, which include; sediments and soils [15][16][17][18], waste lamps [19], fly ashes [18,20], gypsum [21][22][23] and sorbents from Hg retention [24,25]. However, the validity of the method must remain open to doubt until the influence of several instrumental parameters upon the results has been clearly established.…”

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confidence: 99%

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A comparison of devices using thermal desorption for mercury speciation in solids

Rumayor

Dı́az-Somoano

et al. 2016

Talanta

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The goal of this work is to emphasize the reliability of the thermal desorption technique in identifying mercury species. The analysis of mercury species in solids is essential for assessing the risk of disposal or re-use of mercury-contaminated materials. This study evaluates the accuracy and reliability of thermal desorption as a technique for identifying mercury species by means of different thermo-desorption devices. For this purpose, mercury species present in samples related with coal utilization processes were identified. Three devices were compared for analyzing samples free of carbon or with a low carbon content (fly ashes, gypsums and soils), and a new equipment was developed to analyze samples with a high carbon content (coal). In spite of the fact that the first three devices employ different experimental conditions (i.e., heating rate, gas flow and carrier gas), the mercury species identified in the samples were comparable in all cases.The need for new equipment for mercury speciation in materials containing carbon was a consequence of interferences produced from the pyrolysis products of the organic matter. The new device consists of two furnaces and two gas inlets to allow thermal oxidation of organic pyrolysis products and the identification of mercury species in carbonaceous samples. This new approach offers the application of thermal desorption to mercury speciation in all types of materials contaminated with mercury.

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“…The extensive work by Biester et al [10,35,[68][69][70][71] demonstrated the adaptation of an atomic absorption spectrometer, by means of an in-house apparatus consisting of an electronically controlled heating unit and a mercury detection unit [69]. An alternative method for mercury speciation by thermodesorption consists of the use of direct mercury analysers, such as the LECO ® AMA-254 [23,26] or Lumex ® RA-915 + PYRO-915 [72,73], by simply adjusting combustion temperature and the heating programme. Thermo-desorption methods present some advantages over conventional chemical extraction methods and x-ray absorption methods.…”

Section: Speciation By Thermo-desorptionmentioning

confidence: 99%

Overview and challenges of mercury fractionation and speciation in soils

Reis

Davidson

Vale

et al. 2016

TrAC Trends in Analytical Chemistry

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Analytical procedures to assess mercury speciation in soils still lack consensus. This article presents an overview of the mercury fractionation and speciation procedures used in soils. Mercury fractionation is the most common approach despite the operational definition of the fractions. Application of single extraction procedures that target the water-soluble, exchangeable and acid-soluble fractions and the application of EPA method 3200 for mercury sequential extraction are examined in soils with different physicochemical characteristics. A step forward in mercury speciation is thermo-desorption, a useful tool to rapidly obtain needed information about contaminated soils. The advantages and limitations of these procedures are compared; the importance of soils’ physicochemical characteristics highlighted. Criteria to be considered when choosing a suitable method are given - assessing total mercury concentration, soil physicochemical characteristics, environmental conditions, and legislation. It is recommended that the interpretation of results is done wisely, to correctly support decisions concerning intervention strategies at contaminated sites

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Application of thermal desorption for the identification of mercury species in solids derived from coal utilization

Cited by 64 publications

References 27 publications

Mercury pollution in vegetables, grains and soils from areas surrounding coal-fired power plants

Mercury pollution in vegetables, grains and soils from areas surrounding coal-fired power plants

A comparison of devices using thermal desorption for mercury speciation in solids

Overview and challenges of mercury fractionation and speciation in soils

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