The Effect of Atmosphere on Elemental Mercury Release During Thermal Treatment of Two Bituminous Coals

Gao, Libing; Guo, Shaojun; Wei, Xianfu

doi:10.5935/0103-5053.20160113

Cited by 3 publications

(6 citation statements)

References 33 publications

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“…It is reported that most of the Hg released from coal or coal gangue is in the form of Hg 0 under N 2 , which is very consistent with the result of this study. , Meanwhile, it can be observed that the Hg 2+ RR in air is higher than that in a N 2 atmosphere, especially for the 1# coal gangues. Actually, the air is different from the N 2 atmosphere, because of the existence of oxygen.…”

Section: Resultssupporting

confidence: 90%

“…It can be explained that some organic matters in coal gangue are burned under the presence of oxygen, leading to a higher VY under air. However, the HgRR under air atmosphere is lower than that under N 2 . As stated above, it is possibly due to the oxidation of Hg 0 by oxygen in air. , …”

Section: Resultsmentioning

confidence: 83%

“…Similar to coal gangue or coal, some differences between the VY and HgRR between a N 2 atmosphere and air also can be found. , For example, the VY of two coal slimes under air is higher than that under N 2 , which is likely to be caused by the burned organic matter in coal slimes under air. Meanwhile, the HgRR in air is lower than that under N 2 atmosphere, because of the oxidation effect of oxygen in air. , …”

Section: Resultsmentioning

confidence: 96%

“…The mercury content in the coal gangues and coal slimes are listed in Table , which shows that the mercury contents of the four samples vary from 289.75 ng/g to 6331.25 ng/g, which are generally higher than the mercury contents of coals. ,− For example, the mercury content in six coals was reported to range from 94 ng/g to 432 ng/g . Among them, 1# coal gangue has the highest mercury content while 2# coal slime has the lowest mercury content.…”

Section: Resultsmentioning

confidence: 99%

“…In order to provide information for the development of more efficient control technology, it is of great importance to study the mercury release behavior from power plants . Thus, some investigations about the mercury emission from coal-fired power plants have been conducted. , Studies about mercury release during the thermal treatment of coal have also been reported. , Consequently, considerable information focusing on the mercury release from coal has been obtained. − It is generally accepted that the mercury can be transformed to three species with different characters during coal combustion, including particle-bound mercury (Hg p ), elemental mercury (Hg 0 ), and oxidized mercury (Hg 2+ ). Hg p can be easily removed by particulate control devices. , The compounds of Hg 2+ are water-soluble and most of them can be removed by wet flue gas desulfurization units (FGD). ,,− Compared with Hg 2+ , Hg 0 can remain in the atmosphere longer and migrate long distances from the source of emission as a global pollutant. , Therefore, it is harder to be controlled than the other two species.…”

Section: Introductionmentioning

confidence: 99%

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Mercury Release during Thermal Treatment of Two Coal Gangues and Two Coal Slimes under N₂ and in Air

et al. 2017

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The mercury release from coal gangue and coal slime has attracted wide interest, because of the utilization of coal gangue and coal slime in some power plants. In order to develop the Hg control technology, it is necessary to gain the information on the Hg release during thermal treatment of coal gangue and coal slime. This paper presents a study about Hg release during thermal treatment of two coal gangues and coal slimes under air and N2 atmosphere through the online atomic fluorescence spectroscopy aided with the Ontario Hydro Method. The result shows that the release profiles of Hg for the two coal gangues and two coal slimes are similar under the same atmosphere, respectively. Most of the Hg is released at <650 °C under a N2 atmosphere and at<500–550 °C under air for all of the samples. The release ratio of Hg2+ is much lower than that of Hg0 for each sample. The release ratio of Hg0 released under N2 is more than that under air. Because of the high volatility of Hg, the release ratio of total Hg is much higher than the corresponding volatile yield in any case investigated in this study. Meanwhile, the Hg0 release profiles for the samples show two or three peaks under N2 atmosphere, suggesting that different modes of occurrence of mercury are presented in the coal gangues and coal slimes.

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Section: Resultssupporting

confidence: 90%

Section: Resultsmentioning

confidence: 83%

Section: Resultsmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Mercury Release during Thermal Treatment of Two Coal Gangues and Two Coal Slimes under N₂ and in Air

et al. 2017

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Mercury release during thermal treatment of two Chinese coal gangues

Guo

Niu

Zhai

2017

Environ Sci Pollut Res

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The utilization of coal gangue in power plants has become a new anthropogenic discharge source of mercury and attracted much concern in China. It is crucial to obtain the information about the mercury release during thermal treatment of coal gangue. In this study, the mercury release behavior of two coal gangues selected from two power plants were studied under different thermal treatment conditions of heating rate, residence time, and atmosphere. The results of mercury release profile show that the specified release temperature ranges for the different modes of occurrence of Hg are scarcely affected by the heating rate of 10, 20, and 40 °C/min. A higher heating rate could promote the Hg release to some extent. The mercury release ratio gradually increases with the extension of residence time for both coal gangues. The oxidizing environment has a positive effect on mercury release < 600 °C and has a minor effect > 600 °C. Mercury in coal gangue is more volatile than coal gangue matrix and the mercury in GD coal gangue is more easily released out than that in ED coal gangue.

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Influential Topographic Factor Identification of Soil Heavy Metals Using GeoDetector: The Effects of DEM Resolution and Pollution Sources

Wu,

Zhou,

Meng

et al. 2023

Remote Sensing

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Heavy metals (HMs) entering soils are redistributed by natural processes such as surface runoff and soil erosion. These natural processes are characterized by topographic factors (TFs, e.g., Topographic Wetness Index (TWI), Total Catchment Area (TCA), Slope, and Aspect), which are commonly quantified by a digital elevation model (DEM) of a certain spatial resolution. Nevertheless, few studies have examined how DEM resolutions affect the detection of influential TFs of soil HMs. In this study, we first applied the GeoDetector method to explore the coupling between the eight TFs and the concentrations of eight soil HMs under a gradient of DEM resolutions. We found that the important sorting of eight TFs on one HM at different resolutions is inconsistent. For example, for Hg, TWI emerged to be the dominant factor among the eight TFs at 90 m resolution, whereas TCA took the lead at 3000 m resolution. Moreover, the results strongly deny the existence of an optimal resolution (OR) among the HMs for any specific topographical factor. We further applied a source apportionment model (Positive Matrix Factorization—PMF) to explore the effects of five identified pollution sources and the underlying environmental processes on the inconsistent ORs. The main reason for such OR inconsistency is that each HM may be released from various sources and subsequently undergo environmental processes that are topographically modulated at different spatial scales. The main reason for such OR inconsistency is that each HM may have various sources and subsequent environmental processes that happen at different spatial scales. Moreover, each TF could simultaneously reflect different transport and transformation processes. Therefore, the apparent OR for one metal is jointly composed of the preferences of all the sources it contains; thus, it cannot be determined by the OR preferences of a single source alone. Based on the composition and intensity of pollution sources, we propose three possible strategies for a more robust GeoDetector analysis. The findings reported here provide new insights into the proper use of GeoDetector for selecting the appropriate DEM resolutions when identifying influential environmental factors.

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The Effect of Atmosphere on Elemental Mercury Release During Thermal Treatment of Two Bituminous Coals

Cited by 3 publications

References 33 publications

Mercury Release during Thermal Treatment of Two Coal Gangues and Two Coal Slimes under N₂ and in Air

Mercury Release during Thermal Treatment of Two Coal Gangues and Two Coal Slimes under N₂ and in Air

Mercury release during thermal treatment of two Chinese coal gangues

Influential Topographic Factor Identification of Soil Heavy Metals Using GeoDetector: The Effects of DEM Resolution and Pollution Sources

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The Effect of Atmosphere on Elemental Mercury Release During Thermal Treatment of Two Bituminous Coals

Cited by 3 publications

References 33 publications

Mercury Release during Thermal Treatment of Two Coal Gangues and Two Coal Slimes under N2 and in Air

Mercury Release during Thermal Treatment of Two Coal Gangues and Two Coal Slimes under N2 and in Air

Mercury release during thermal treatment of two Chinese coal gangues

Influential Topographic Factor Identification of Soil Heavy Metals Using GeoDetector: The Effects of DEM Resolution and Pollution Sources

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Product

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Mercury Release during Thermal Treatment of Two Coal Gangues and Two Coal Slimes under N₂ and in Air

Mercury Release during Thermal Treatment of Two Coal Gangues and Two Coal Slimes under N₂ and in Air