Thermogravimetric analysis for characterization of the pellets produced with different forest and agricultural residues

Brand, Martha Andréia; Barnasky, Ricardo Ritter de Souza; Carvalho, Carolina Alves; Buss, Rodrigo; Waltrick, Deyvis Borges; Jacinto, Rodolfo Cardoso

doi:10.1590/0103-8478cr20180271

Cited by 16 publications

(8 citation statements)

References 18 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…In this perspective, many resources and research activities are now focused on the exploitation of agricultural by-products or energy grasses. However, several studies carried out show problems of low durability of pellets produced from cereal residues [66], high ash content over 3.5%, 5.5% and 6.5% for miscanthus, rape straw and wheat straw respectively [58], 2.27% and 4.2% for apple pruning [67] and vineyard pruning [68].…”

Section: Discussionmentioning

confidence: 99%

Production of Wood Pellets from Poplar Trees Managed as Coppices with Different Harvesting Cycles

et al. 2019

View full text Add to dashboard Cite

High-density biomass plantations have played a key role in the national energy landscape in Italy since the 1990s but, to date, an inversion of tendency and a significant reduction of cultivated areas has been noted. Despite this, the existing plantations have seen their coppicing rotation become significantly lengthened, resulting in large quantities of biomass per hectare. This study aimed to identify the best raw material suitable for pellet production using whole trees or stems without branches from poplar plantations at the end of the third, sixth and ninth year of age. All types of pellets made reach the requirements of class A1 for diameter, length, moisture content, ash melting point, lower heating value, as well as nitrogen (N), sulfur (S), and heavy metals. None of the theses satisfied the bulk density parameters while for ashes and mechanical durability, a great variability was observed according to the different raw materials used. An improvement in terms of heating value was observed by transforming the poplar wood chips refined into pellets. The pelletizing process using high density poplar plantation as a raw material highlights the possibility of obtaining a product that meets many of the quality standards required on the market. These aspects are closely related to the innovation carried out in the agro-forestry sector for effective energetic sustainability.

show abstract

Section: Discussionmentioning

confidence: 99%

Production of Wood Pellets from Poplar Trees Managed as Coppices with Different Harvesting Cycles

et al. 2019

View full text Add to dashboard Cite

show abstract

“…Thermal degradation can be distinguished in three main stages. 23 The first stage is related to drying, second stage is related to active pyrolysis and the third stage is related to passive pyrolysis, highlighting that these stages may vary its temperature ranges, depending on the chemical composition of the lignocellulosic material analysed. Hemicellulose and cellulose decompose between 150 C and 350 C, while lignin decomposes between 250 C and 500 C. Also, it is stated that polyethylene has its main decomposition temperature at 517 C, which is related to the result found in these analyses.…”

Section: Resultsmentioning

confidence: 99%

High density polyethylene matrix composite as reinforcing agent in medium density fiberboards

Barnasky

Cunha

Oliveira

et al. 2020

Journal of Composite Materials

Self Cite

View full text Add to dashboard Cite

This work provides a study about the incorporation of a high density polyethylene (HDPE) matrix composite in medium density fiberboards (MDF). A composite was processed in a single screw extruder with 5% of Pinus spp fibers in a HDPE matrix and applied as reinforcing agent in MDFs, as well as pure HDPE, in 11 different variations, using 12% of urea-formaldehyde resin and nominal density of 750 kg.m−3. The composite and the pure HDPE were analyzed by differential scanning calorimetry (DSC), thermogravimetric analysis (TGA) and scanning electron microscopy (SEM). The DSC results showed that both polymeric matrix and composite presented the same melting temperature but the composite had a reduced melting enthalpy and crystallinity due to thermal history. SEM analysis showed a well distribution of fibers on the composite. The results of technological properties of MDFs were compared to commercial MDF standards. The MDF reinforced with 40% of polymeric composite reached all minimum standard requirements, being the most recommended to be used as an alternative to conventional MDF, in terms of physical and mechanical performance.

show abstract

“…Analisando os dados da DTG, é possível verificar que na rampa de 800-1000 °C, quando se dão as reações de gasificação da biomassa, ficou registrada uma perda de massa de 4,34%. Sendo as taxas dos 200 °C iniciais e finais equivalentes, em termos de perdas de massa, resta que a faixa central do intervalo (200-600° C) corresponderá aos eventos de carbonização remanescente da matéria orgânica [43]; já na faixa #3 ocorre o pico a 686,67 °C, atingindo temperaturas iguais e acima de 800 °C, onde há perda de água pela condensação de grupos OH [39] e se formam compostos gasosos como CO, CO 2 , além de outros compostos óxidos ou carbonáticos de Mg e Ca [33,40].…”

Section: Termogravimetria (Tg/dtg)unclassified

“…Como já mencionado (2.1), sendo os resíduos de espécies mistas, implica que cada espécie possui ponto de decomposição térmica diferente [43], o que ajuda a explicar a presença da matéria orgânica não queimada. Cabe ressaltar ainda que as CG, como utilizadas neste estudo, são geradas em temperatura máxima de ~500 °C [32].…”

Section: Perda Ao Fogounclassified

Desempenho mecânico e durabilidade de argamassas contendo adições de resíduos de carvão vegetal amazônico

Ribeiro¹,

Souza²,

Grondona

et al. 2021

Matéria (Rio J.)

View full text Add to dashboard Cite

RESUMO Este artigo analisou o desempenho físico-mecânico de argamassas cimentícias contendo adições de cinza granulada de biomassa oriunda de resíduos de carvão vegetal amazônico. Como aglomerante suplementar, foram substituídos teores de 0%, 5% e 10% em massa do aglomerante principal (cimento Portland). Foram observados e comparados aspectos de durabilidade e desempenho mecânico entre os compósitos. Para isso, foram selecionadas matérias primas – subprodutos da indústria madeireira, areia de rio (f 2,36 mm), cinza granulada (CG) de carvoaria (f 75 µm) e o cimento CP II – F 40. Corpos de prova cilíndricos 50x100 mm foram confeccionados com argamassas das misturas. Análise termogravimétrica (TG/DTG) sobre a CG foi desenvolvida. O compósito cimentício em estado endurecido foi analisado nos aspectos de volume de vazios, absorção de água total e por capilaridade, perda de massa a 950° C, resistências à tração diametral e resistência à compressão axial. Os resultados mostraram queda no desempenho mecânico dos compósitos com adição de 5%. O compósito com 10% de CG apresentou o melhor desempenho geral, porém, indicou tendência a queda na durabilidade, a partir das idades avançadas.

show abstract

Thermogravimetric analysis for characterization of the pellets produced with different forest and agricultural residues

Cited by 16 publications

References 18 publications

Production of Wood Pellets from Poplar Trees Managed as Coppices with Different Harvesting Cycles

Production of Wood Pellets from Poplar Trees Managed as Coppices with Different Harvesting Cycles

High density polyethylene matrix composite as reinforcing agent in medium density fiberboards

Desempenho mecânico e durabilidade de argamassas contendo adições de resíduos de carvão vegetal amazônico

Contact Info

Product

Resources

About