Perennial grasses as prospective energy sources
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Corsaro, Agnieszka
Raclavská, Helena
Hlavsová, Adéla
Frydrych, Jan
Juchelková, Dagmar
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Taylor & Francis
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Abstract
Properties of nine composts obtained from perennial grasses for their potential use as an energy source were assessed in this study. The majority of grasses displayed high-moisture, hemicellulose, Na, K, Cl, and N contents, but low lignin content. The effect of composting was pronounced in (i) enhancement of lignin to 461.29%, fixed carbon to 49.46%, and cellulose to 35.05%; and (ii) reduction of Na to 98.77%, moisture to 93.49%, hemicellulose to 89.15%, K to 88.21%, N to 84.43%, Cl to 23.15%, and volatile matter to 12.57%. Subsequently, an increase in higher heating value to 13.90% was observed.
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Subject(s)
biomass, compost, energy source, perennial grasses, properties evaluation
Citation
Energy Sources, Part A: Recovery, Utilization, and Environmental Effects. 2016, vol. 38, issue 9, p. 1206-1211.
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Publikační činnost VŠB-TUO ve Web of Science / Publications of VŠB-TUO in Web of Science
Publikační činnost Centra energetických jednotek pro využití netradičních zdrojů energie (9370)
Publikační činnost Katedry energetiky / Publications of Department of Energy Engineering (361)
Publikační činnost Katedry geologického inženýrství / Publications of Department of Geological Engineering (541)
Články z časopisů s impakt faktorem / Articles from Impact Factor Journals
Publikační činnost Centra energetických jednotek pro využití netradičních zdrojů energie (9370)
Publikační činnost Katedry energetiky / Publications of Department of Energy Engineering (361)
Publikační činnost Katedry geologického inženýrství / Publications of Department of Geological Engineering (541)
Články z časopisů s impakt faktorem / Articles from Impact Factor Journals