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Characteristics of syngas from the pyrolysis and gasification of food waste has been investigated. Characteristic differences in syngas properties and overall yields from pyrolysis and gasification were determined at two distinct high temperatures of 800 and 900C. Pyrolysis and gasification behavior were evaluated in terms of syngas flow rate, hydrogen flow rate, output power, total syngas yield, total hydrogen yield, total energy yield, and apparent thermal efficiency. Gasification was more beneficial than pyrolysis based on investigated criteria, but longer time was needed to finish the gasification process. Longer time of gasification is attributed to slow reactions between the residual char and gasifying agent. Consequently, the char gasification kinetics was investigated. Inorganic constituents of food char were found to have a catalytic effect. Char reactivity increased with increased degree of conversion. In the conversion range from 0.1 to 0.9 the increase in reactivity was accompanied by an increase in pre-exponential factor, which suggested an increase in gasifying agent adsorption rate to char surface. However, in the conversion range from 0.93 to 0.98 the increase in reactivity was accompanied by a decrease in activation energy. A compensation effect was observed in this range of conversion of 0.93–0.98.
(Source: I.I. Ahmed, A.K. Gupta. Pyrolysis and gasification of food waste: Syngas characteristics and char gasification kinetics. Applied Energy 87 (2010) 101–108).
Read the following abstract. It is more detailed than the examples presented above. Look through the articles of the third part of the textbook and define what article it corresponds to. Write the abstract to one of the articles you’ve read.
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| III. Citations. Quotations, paraphrases and summaries | | | Part 3. Texts on interdisciplinary research for abstracting and annotating |