Local variability of yield and physical properties of açaí waste and improvement of its energetic attributes by separation of lignocellulosic fibers and seeds

The high degree of variability among suppliers and types of biomasses hinders their application in energy production. Investigation into this drawback is needed for the use of the waste produced from açaí depulping, which is widely available throughout the Amazonia. This work aimed to analyze the va...

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Bibliographic Details
Published in:Journal of renewable and sustainable energy 2018-09, Vol.10 (5)
Main Authors: Bufalino, Lina, Guimarães, Arqueanise Andrade, Silva, Breno Marques da Silva e, de Souza, Rafael Lucas Figueiredo, de Melo, Isabel Cristina Nogueira Alves, de Oliveira, Dhimitrius Neves Paraguassú Smith, Trugilho, Paulo Fernando
Format: Article
Language:English
Subjects:
Charcoal
Density
Drying
Fibers
Lignocellulose
Moisture content
Physical properties
Pyrolysis
Seeds
Separation
Suppliers
Thermogravimetric analysis
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Summary:The high degree of variability among suppliers and types of biomasses hinders their application in energy production. Investigation into this drawback is needed for the use of the waste produced from açaí depulping, which is widely available throughout the Amazonia. This work aimed to analyze the variability of the yield and physical properties of the açaí waste among different Amazonian producers located at Macapá, AP, Brazil. In addition, energetic attributes of different waste components, namely, seeds and lignocellulosic fibers, were compared to determine if they should be separated prior to burning or pyrolysis. The average yield (71.0%–95.0%), dry basis moisture content (66.6%–76.2%), and basic density (0.753 g cm−3 to 0.812 g cm−3) of açaí waste varied remarkably among the suppliers. Fibers and seeds depicted similar higher heating values (19.91 MJ kg−1 and 19.32 MJ kg−1) and fixed carbon (21.39% and 21.50%) and volatile matter (77.32% and 76.65%), while the ash content was slightly lower for seeds (1.29%–2.08%) in comparison to fibers (1.85%–2.63%). Thermogravimetric analysis revealed different initial degradation temperatures and mass loss rates for the seeds and fibers. It was concluded that the yield and physical properties of açaí waste varied remarkably among providers. A drying process should be carried out before açaí waste burning due to its high moisture content. The high basic density is an advantageous feature of açaí waste in the context of bioenergy. Separation of the components is recommended prior to pyrolysis to avoid heterogeneous charcoal.
ISSN:1941-7012
1941-7012
DOI:10.1063/1.5027232