Celina Palacios-Mendoza scite author profile

Celina Palacios-Mendoza

2Publications

6Citation Statements Received

32Citation Statements Given

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Affiliations

Universidad Juárez del Estado de Durango

Publications

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Effect of Sawdust Particle Size on Physical, Mechanical, and Energetic Properties of Pinus durangensis Briquettes

et al. 2021

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Particle size is a physical property that sometimes limits the quality of briquettes, so it is recommended to use different sizes in mixtures for their manufacture. The objective of this research was to evaluate the effect of different particle sizes of sawdust in mixtures on some physical, mechanical, and energetic properties of briquettes made from Pinus durangensis sawdust, as well as set the ranges within the appropriate values found to obtain desired values. Three particle sizes were established (large, medium, and small), and 10 mixtures were prepared using different percentages of each particle classification. The particle density, volumetric swelling, compressive strength, impact resistance index (IRI), and gross calorific value of the briquettes were evaluated. For the determination of optimal mixtures, the surface response methodology was used under a three-factor simplex-lattice model. The particle density values were in the range 0.92 to 1.02 g cm−3 and the volumetric swelling was 0.96 to 3.9%. The highest resistance to compression was 37.01 N mm−1, and the IRI was found in the range of 53 to 107%. The gross calorific values were from 19.35 to 21.63 MJ kg−1. The selection of different particle sizes for the mixtures increases the quality of the briquettes.

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Propiedades físicas y biomasa fustal dePinus engelmanniiproveniente de unaplantación en Durango

Goche-Télles

Carrillo-Parra

Razo-Zárate

et al. 2023

Ecosist. Recur. Agropec.

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Las plantaciones forestales comerciales son una estrategia para proteger de la sobreexplotación a los bosques naturales, por lo que es importante, conocer las propiedades físicas de su madera. El objetivo del trabajo fue determinar la calidad de la madera con base en sus propiedades físicas, y la cantidad de biomasa en una plantación de Pinus engelmannii de 17 años. El diámetro normal y altura total se midió en todos los árboles encontrados en 20 sitios rectangulares de 3.0 x 6.0 m distribuidos en cuatro líneas. En cada sitio, con un taladro de Pressler se tomó un núcleo de crecimiento a 1.30 m de altura, en dos árboles dominantes. Las propiedades físicas, densidad básica (DB), contenido de humedad (CH), contracciones volumétricas totales (CVT), y punto de saturación de la fibra (PSF) se determinaron aplicando las fórmulas específicas de cada componente. La biomasa se estimó con los valores de volumen y densidad básica, además de tres ecuaciones alométricas. Los resultados indican que la DB fue de 0.379 g cm−3, CH de 199.37%, CVT de 13.63%, PSF de 39.28% y promedio de biomasa fustal de 22.79 kg. El ANOVA mostró que la sección dentro del árbol influyó de manera significativa (p < 0.05) en DB y CH, con correlación negativa (r = - 0.96). La madera de la plantación es homogénea con respecto a la DB, CH y CVT, mientras que las dos primeras variables presentaron variación radial. La biomasa presentó relación con la densidad básica y el diámetro normal.

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