Ewelina Cieślik scite author profile

Ewelina Cieślik

4Publications

33Citation Statements Received

70Citation Statements Given

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Affiliations

Institute of Environmental Engineering, Polish Academy of Sciences, AGH University of Krakow

Publications

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Emission Factors for Biofuels and Coal Combustion in a Domestic Boiler of 18 kW

et al. 2019

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The differences in the pollutant emissions from the combustion of bituminous coal and biofuels (wood, straw, and miscanthus pellets) under real-world boiler operating conditions were investigated. The experiments were performed on an experimental installation that comprised an 18 kW boiler, used in domestic central heating systems, equipped with a retort furnace, an automatic fuel feeder, a combustion air fan, and a fuel storage bin. The emission factors of gaseous pollutants, particulate matter, organic carbon, elemental carbon, and polycyclic aromatic hydrocarbons (PAHs), as well as some PAH concentration ratios for coal and biofuel combustion, were determined. The obtained results indicate that fuel properties have a strong influence on the emission factors of gaseous and carbonaceous pollutants. The total particulate matter (PM) emissions from the biofuel combustion were about 5-fold lower than those from the coal burned in the same boiler. The emission factors of the total carbons from the biofuel combustion were between 10 and 20 times lower than those from the coal combustion. The mean organic carbon (OC) and elemental carbon (EC) emission factors, based on the burned fuel, were 161–232 and 42–221 mg/kg for the biofuels and 1264 and 3410 g/kg for the coal, respectively. The obtained results indicate that molecular diagnostic ratios, based on the concentration of PAHs, vary significantly, depending on the fuel type.

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The influence of KCl on biomass ash melting behaviour and high-temperature corrosion of low-alloy steel

Mlonka-Mędrala

Gołombek

Buk

et al. 2019

Energy

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Prognosis of environmental impact of trace elements from brown coal-fired power plant “Bełchatów”

Konieczyński¹,

Komosiński²,

Cieślik³

2012

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Keywords: Environment protection, brown coal, traceelements, combustion products, fl ue gas desulphurization (FGD) gypsum, forecast of trace elements emission, forecast of trace elements transfer.Abstract: A forecast of the negative impact exerted on the environment by selected trace elements in "Bełchatów" Power Plant has been prepared on the basis of the results of investigations into these elements' distribution carried out as part of earlier research on coal from "Bełchatów" Field and the data on updated analyses of the content of these elements in 55 brown coal samples from test boreholes.Work in "Bełchatów" Power Plant, which is supplied with coal from "Szczerców" Field, will be accompanied by trace elements transfer. On the basis of the conducted investigations it has been found that the biosphere is most threatened by mercury emissions. As shown by the presented results of analyses and calculations, the emissions of mercury in "Bełchatów" Power Plant are low. Mercury is accumulated chiefl y in gypsum produced in the FGD plant. The content of mercury in slag and ash is low.

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Research into properties of dust from domestic central heating boiler fired with coal and solid biofuels

Konieczyński

Komosiński

Cieślik

et al. 2017

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Abstract:The aim of this research was to assess the content and composition of the pollutants emitted by domestic central heating boilers equipped with an automatic underfeed fuel delivery system for the combustion chamber. The comparative research was conducted. It concerned fuel properties, fl ue gas parameters, contents of dust (fl y ash) and gaseous substances polluting the air in the fl ue gases emitted from a domestic CH boiler burning bituminous coal, pellets from coniferous wood, cereal straw, miscanthus, and sunfl ower husks, coniferous tree bark, and oats and barley grain. The emission factors for dust and gaseous air pollutants were established as they are helpful to assess the contribution of such boilers in the atmospheric air pollution. When assessing the researched boiler, it was found out that despite the development in design and construction, fl ue gases contained fl y ash with a signifi cant EC content, which affected the air quality.

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