Determinación inversa de la conductividad térmica en madera de Pinus radiata

Acuña-Alegria, Luis; Salinas-Lira, Carlos; Sepúlveda-Villarroel, Víctor; Vasco, Diego A.; Ananías, Rubén A.

doi:10.4067/s0718-221x2018005004701

Cited by 1 publication

(3 citation statements)

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“…Group B is represented by Iroko, and Bose species with medium calorific values 19500 KJ/kg and 21000 KJ/kg and finally the group C including Rose and Guaiac species with the highest values, around 21000 KJ/kg. The values obtained are comparable with those found by Acuña-Alegria et al (2018) for Mexican tree species, which are within the range of 17,15 MJ/kg to 18,61 MJ/kg.…”

Section: Discussionsupporting

confidence: 88%

“…The tropical wood species can produce more wood per ha reaching 25-30 t/ha/year, thus resulting 5,3-6,3x10 5 MJ/ha for Afromosia and 4,7-5,6 x 10 5 MJ/ha for Acajou spp. The forest calorific capacity of a tropical wood species is with 23-47% higher than of European beech (Fagus sylvatica) with 3,8 x 10 5 MJ/ha, as other authors states before (Acuña-Alegria et al 2018).…”

Section: Discussionmentioning

confidence: 59%

“…This can be attributed to the differences in chemical composition. The tropical wood species contain around 43,5% cellulose, 65,5% hemicellulose and 30,36% lignin, as reported by Acuña-Alegria et al (2018). Their lignin content is considerably higher than of European trees with about 17,6% which have average cellulose content of 45%, 6% hemicellulose and 25% lignin (Asibor et al 2019).…”

Section: Discussionmentioning

confidence: 73%

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Evaluation of the calorific values of wastes from some tropical wood species

Lunguleasa

Spirchez

Zeleniuc

2020

Maderas, Cienc. tecnol.

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The paper aims to analyze and classified some exotic wood species from tropical Africa, on regard to calorific features, in order to view the ability of their biomass to be a solid, natural and renewable fuel. The calorific values of wood wastes of eight tropical species were determined using an oxygen bomb calorimeter. The tested specimens were conditioned at a moisture content of 10%, 20%, and 50%. The influence of moisture content on calorific value and density, heat release rate and calorific efficiency were also analyzed. The biggest high calorific value and low calorific value were obtained by Guaiac and Rose species (21200-20700 kJ/kg). Acajou had the lowest values of high calorific value and low calorific value (18929 and 18456 kJ/kg, respectively). For higher wood density (Guaiac) the higher calorific density was obtained. The moisture content of specimens had negatively influenced the calorific efficiency and rate of energy release. The ash content was below 4% with highest values for Guaiac (3,6%) and the lowest for Acajou (0,5%). The results showed that the analyzed tropical wood species had a forest calorific capacity with 23-47% higher than of European beech, thus can be considered a good potential as renewable energy resources.

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Section: Discussionsupporting

confidence: 88%

Section: Discussionmentioning

confidence: 59%