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Niesporek, Kamil; Matus, Krzysztof; Maj, Izabella, 2024, "Analiza SEM wpływu dodatków glinokrzemianowych na charakterystykę popiołu z biomasy pochodzenia zwierzęcego", https://doi.org/10.18150/9NS2VJ, RepOD, V1
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Zbiór zawiera wyniki badań wytworzone w ramach projektu pt. "Wpływ dodatków glinokrzemianowych na proces korozji wysokotemperaturowej i charakterystykę popiołu z biomasy pochodzenia zwierzęcego" finansowanego przez Narodowe Centrum Nauki.
Biomasa pochodzenia zwierzęcego zyskuje popularność jako opłacalne ekonomicznie źródło energii odnawialnej. Jednak ze względu na specyficzny skład i własności biomasa ta może nastręczać problemów podczas konwersji termicznej. Celem projektu jest zbadanie wpływu dodatków glinokrzemianowych na potencjał korozyjny i własności popiołu z biomasy pochodzenia zwierzęcego. Projekt skupia się na problemach takich jak skłonność do żużlowania, korozja wysokotemperaturowa, rozkład ziarnowy popiołu oraz zawartość i wymywalność metali. Badane są dwa rodzaje biomasy o największym potencjale: odpady z produkcji drobiu (poultry litter) oraz z hodowli bydła (cattle dung).
W paczce o nazwie ASHES_SEM.zip zawarto zdjęcia analizy SEM (ang. Scanning Electron Microscope) popiołu wytworzonego w wyniku spalania biomasy pochodzenia zwierzęcego. Paliwa biomasowe, po wstępnym wysuszeniu i zmieleniu w młynku laboratoryjnym, zostały poddane spalaniu z 8% dodatkiem paliwowym w ceramicznych tyglach. Jako dodatek zastosowano glinokrzemiany w postaci haloizytu, bentonitu oraz kaolinu. Proces odbywał się w strefie stałej temperatury 550°C, co skutkowało uzyskaniem chemicznie stabilnego popiołu z minimalną ilością niespalonego węgla. Dodatkowo paczka zawiera legendę w postaci pliku tekstowego.
The collection contains research results produced as part of the project entitled 'Influence of aluminosilicate additives on the high-temperature corrosion process and ash characteristics of animal biomass', funded by the National Science Centre.
Animal biomass is gaining popularity as an economically viable source of renewable energy. However, due to its specific composition and properties, this biomass can pose problems during thermal conversion. The aim of the project is to investigate the influence of aluminosilicate additives on the corrosion potential and properties of animal biomass ash. The project focuses on problems such as slagging propensity, high-temperature corrosion, ash grain distribution and metal content and leachability. Two types of biomass with the greatest potential are being investigated: poultry litter and from cattle dung.
The package, named ASHES_SEM.zip, contained images of SEM (Scanning Electron Microscope) analysis of the ash produced by the combustion of animal biomass. The biomass fuels, after pre-drying and grinding in a laboratory grinder, were combusted with an 8% fuel additive in ceramic crucibles. Aluminosilicates in the form of halloysite, bentonite and kaolin were used as additives. The process took place at a constant temperature zone of 550°C, resulting in chemically stable ash with minimal unburned carbon. In addition, the package includes a legend in the form of a text file.
korozja wysokotemperaturowa, glinokrzemiany, dodatki paliwowe, żużlowanie popiołu, aglomeracja popiołu, obornik krowi, ściółka kurza, popiół biomasowy
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