Morphology and Composition of Microspheres in Fly Ash from the Luohuang Power Plant, Chongqing, Southwestern China

Liu, Huidong; Sun, Qi; Wang, Baodong; Wang, Peipei; Zou, Jianhua

doi:10.3390/min6020030

Cited by 33 publications

(24 citation statements)

References 41 publications

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“…Some Ca is likely to derive from the surrounding limestone (CaCO 3 ) geology; however, the loading of Ca on PC2 instead of the minerogenic PC1 and strong correlations with SIRM, SOFT 20 , and χ LF , highlight an anthropogenic source. Calcium-rich dust from cement plants, mining activities and construction (Magiera et al, 2012;Khatri and Tyagi, 2014) are potential sources as well as calcite fly ash from Luohuang Power station as reported by Liu et al (2016). Moderate loadings of SCPs and Tl on PC2 suggest that high Tl contamination (revealed by I geo values > 4) is derived from coal combustion (Xiaoyan et al, 2015).…”

Section: Anthropogenic Signals In Skpmentioning

confidence: 91%

Monitoring Impacts of Urbanisation and Industrialisation on Air Quality in the Anthropocene Using Urban Pond Sediments

et al. 2018

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Section: Anthropogenic Signals In Skpmentioning

confidence: 91%

Monitoring Impacts of Urbanisation and Industrialisation on Air Quality in the Anthropocene Using Urban Pond Sediments

et al. 2018

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“…Coal fly ash contains substantial quantities of iron oxides, hematite and magnetite, as well as spherical carbonaceous particles [61]. Iron in the form of maghemite (y-Fe 2 O 3 ) crystals often forms on the surface of microspheres ("ferrospheres") in CFA [62]. Iron speciation by Mossbauer spectroscopy indicates that ferric iron in an aluminosilicate glass phase is the source of bioavailable iron in CFA and that this iron species is associated with combustion particles, but not with crustal dust derived from soil minerals [63].…”

Section: Principal Origin Of Air-pollution Particulate Ironmentioning

confidence: 99%

Geoengineering, Coal Fly Ash and the New Heart-Iron Connection: Universal Exposure to Iron Oxide Nanoparticulates

Whiteside¹,

Herndon²

2019

JAMMR

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Globally, air pollution is the leading environmental cause of human disease and death, and it is a major contributor to cardiovascular disease. Air pollution damages the cardiovascular system by oxidative stress, inflammation, endothelial dysfunction, and pro-thrombotic changes. Ultrafine particulate matter from the combustion of fossil fuels delivers the most potent and harmful elements of air pollution. Coal fly ash is a rich source of nano-sized metal, iron oxide, and carbonaceous particles. Previous findings revealed that coal fly ash is widely utilized in undisclosed tropospheric aerosol geoengineering. Proper iron balance is central to human health and disease, and the harmful effects of iron are normally prevented by tightly controlled processes of systemic and cellular iron homeostasis. Altered iron balance is linked to the traditional risk factors for cardiovascular disease. The iron-heart hypothesis is supported by epidemiological, clinical, and experimental studies. Biogenic magnetite (Fe3O4) serves essential life functions, but iron oxide nanoparticles from anthropogenic sources cause disease. The recent finding of countless combustion-type magnetic nanoparticles in damaged hearts of persons from highly polluted areas is definitive evidence of the connection between the iron oxide fraction of air pollution and cardiovascular disease. Spherical magnetic iron oxide particles found in coal fly ash and certain vehicle emissions match the exogenous iron pollution particles found in the human heart. Iron oxide nanoparticles cross the placenta and may act as seed material for future cardiovascular disease. The pandemic of non-communicable diseases like cardiovascular disease and also rapid global warming can be alleviated by drastically reducing nanoparticulate air pollution. It is crucial to halt tropospheric aerosol geoengineering, and to curb fine particulate emissions from industrial and traffic sources to avoid further gross contamination of the human race by iron oxide-type nanoparticles.

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“…Fly ash-derived microspheres are characterized by valuable properties from the application point of view including low density, hydrophobicity, thermal and mechanical stability [1][2][3][4][5]. The application of the microspheres in industry is quite common.…”

Section: Introductionmentioning

confidence: 99%

Microspheres as potential fillers in composite polymeric materials

et al. 2019

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Microspheres used in our work were acquired from one of Kazakhstan coal-fueled power plant. The size of the microspheres varied between 45 and 400 μm, the median particle size (D50) was 158 μm. Microscopic analysis revealed that the material consisted mainly of cenospheres. The results of elemental and oxide analysis showed that microspheres were composed of aluminosilicates. Identified crystalline phases were mullite (approx. 12 %) and trace amount of quartz (silica). Microscopic observations of the cross-sectional surface of both unmodified PUR foam and foams modified with microspheres showed a well formed, cellular structure of all materials. The observed cells are polyhedron in shape, most of them are closed, microspheres were uniformly distributed within polymer matrix and placed between cells. The apparent densities calculations of the samples showed that when microspheres were added to the polymer matrix, apparent density of the resulting composite materials increased. The results of elemental analysis pointed out the highest content of all three elements in unmodified PUR foam sample. The addition of the microspheres to the system resulted in decrease of the concentration of all three elements.

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Morphology and Composition of Microspheres in Fly Ash from the Luohuang Power Plant, Chongqing, Southwestern China

Cited by 33 publications

References 41 publications

Monitoring Impacts of Urbanisation and Industrialisation on Air Quality in the Anthropocene Using Urban Pond Sediments

Monitoring Impacts of Urbanisation and Industrialisation on Air Quality in the Anthropocene Using Urban Pond Sediments

Geoengineering, Coal Fly Ash and the New Heart-Iron Connection: Universal Exposure to Iron Oxide Nanoparticulates

Microspheres as potential fillers in composite polymeric materials

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