Desarrollo de pellets a partir de tres especies leñosas bajo condiciones mediterráneas

Fernández-Puratich, Harald; Oliver-Villanueva, José-Vicente; Valiente, Mireya; Verdú, Salvador; Albert, Nuria

doi:10.21829/myb.2014.203155

Cited by 6 publications

(9 citation statements)

References 11 publications

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“…Therefore, this species can be used as a raw material for transformation into densified biofuel for domestic or industrial applications. These results are in accordance with those reported by different authors [40,44,97,103,104]. Herrera-Fernández et al [94] found values below those found here of 17 MJ/kg for three species of oak.…”

Section: Calorific Valuesupporting

confidence: 94%

“…Some studies presented differences in ash content between barked and debarked wood: Barmpoutis et al [95] reported values of 1.62% and 1.14% for wood and 12.18% and 9.15% for Q. coccifera and Q. ilex barks, respectively. Also, Fernández et al [44] found for Q. ilex wood a value of 1.8%. Serret-Guasch et al [96] mentioned an ash content of 0.5% to 2.0% for sawdust from the forestry industry.…”

Section: Immediate Analysismentioning

confidence: 91%

“…They found that increments of ash content related to increasing bark content. Fernández et al [44] investigated the energetic potential of new biomass sources using Quercus ilex. Relova et al [45] studied the influence of the particle size of Pinus caribea bark in biomass compaction process.…”

Section: Introductionmentioning

confidence: 99%

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The Bioenergetic Potential of Four Oak Species from Northeastern Mexico

Núñez-Retana

Wehenkel

Vega-Nieva

et al. 2019

Forests

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Lack of knowledge regarding the fuel quality of diverse tree species prevents their use. Furthermore, the potential use of wood with the bark of different tree species for pellet production is still relatively unexplored in the scientific literature. In Mexico, the sawdust of Quercus genus (oak) is underutilized, despite it being an important forest resource, due to some anatomical and technological characteristics. The sawdust of Quercus with bark is also considered to have a low economic value. The objective of this study was to analyze the energy characteristics of barked and debarked Quercus sideroxyla, Q. rugosa, Q. laeta, and Q. conzattii in order to evaluate their potential for pellet production. Granulometric distribution, bulk density, proximal analysis, and calorific value tests were carried out. The sawdust of the four tree species studied was in accordance with the limits established by the standard EN 14961-2. Sawdust with a particle size of 0.425 mm had the highest percentage of retained mass (30.33%) (p < 0.05) in the granulometry test. There were no statistical differences in granulometry (p > 0.05) between barked and debarked sawdust for all Quercus species. Barked sawdust presented higher bulk density (p < 0.05) than debarked sawdust (246 and 224 kg/m3, respectively). The moisture content did not show statistical differences (p > 0.05) between barked and debarked sawdust. The volatile material was higher (p < 0.05) in debarked sawdust (88.7%) than in barked sawdust (85.0%). The ash content was below 0.5%. The fixed carbon was higher (p < 0.05) in barked sawdust (14.6%). The calorific value was higher (p < 0.05) in barked sawdust and for the Q. rugosa species (19.5 MJ/kg). The results suggest that the oak species analyzed, both barked and debarked, showed good potential for pellet production. Future studies should quantify fuel quality for a variety of diameter distributions, and analyze pellet mechanical properties and ash slagging risk.

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Section: Calorific Valuesupporting

confidence: 94%

Section: Immediate Analysismentioning

confidence: 91%

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The Bioenergetic Potential of Four Oak Species from Northeastern Mexico

Núñez-Retana

Wehenkel

Vega-Nieva

et al. 2019

Forests

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“…A diferencia de otros países pertenecientes a la región europea, en Chile no ha habido experiencia en la producción de biomasa para fines de uso energético con ambas especies mencionadas, y a su vez, existe escasa evidencia científica hasta el momento que permita sustentar el futuro establecimiento masivo de plantaciones productivas dirigidas a fines energéticos (Fernández-Puratich et al, 2014;Muñoz, Cancino, Rodríguez y Olave, 2018). Por lo tanto, la presente investigación consistió en evaluar las características físicas, químicas y energéticas de clones de Miscanthus x giganteus y Paulownia eloganta x fortunei establecidos en tres suelos contrastantes del centro sur de Chile a través de los siguientes objetivos.…”

Section: Introductionunclassified

Potencial energético de clones de Paulownia y Miscanthus para la producción de energía en Chile

Pegoretti

Muñoz

Teixeira

et al. 2020

MYB

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El modelo energético mundial se basa en combustibles fósiles, el cual ha venido siendo sustituido por consideraciones ambientales y económicas, dándole paso a la biomasa y a las plantaciones dendroenegéticas. En Chile, las energías renovables no convencionales (ERNC) vienen ganando espacio, además la nación ha abocado esfuerzos en especies que posean buen potencial energético. Así, este estudio tiene como objetivo evaluar el potencial físico-químico, energético y perfiles térmicos de dos especies (Paulownia elongata x fortunei y Miscanthus x giganteus) para el uso energético en tres sitios contrastantes de Chile. Los análisis fueron realizados en su mayoría bajo los estándares de las Normas DIN. Los resultados para Paulownia mostraron diferencias entre los sitios, obteniendo los mejores resultados en el sitio El Vergel con un porcentaje de lignina de 34,84%, cenizas de 1,16%, material volátil de 81,70%, carbono de 47,02% y una densidad energética líquida (DEL) de 2,16 GJ m-3. Para Miscanthus los mejores resultados también fueron registrados en El Vergel, con porcentaje de lignina de 30,60%, cenizas de 2,84%, material volátil de 82,26% y carbono de 45,97% y una DEL de 1,67 GJ m-3, destacando que los mejores resultados de El Vergel son para la densidad D1. Respecto al perfil térmico (TGA-DTG), la Paulownia presentó pérdida de masa mayor que el Miscanthus y tuvo ignición a menor temperatura de 197,76 °C y 209,66 °C respectivamente. Por lo tanto, el mayor porcentaje de residuo lo presentó el Miscanthus con 5,63%. Consiguientemente, ambas especies presentan características deseables para su uso energético.

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“…plantations are being cultivated in different countries to produce biomass for the generation of energy (Fernández-Puratich et al, 2014;Senelwa and Sims, 1999). They are also being grown to produce energy crops (Fernández-Puratich et al, 2014;Krasuska et al, 2010;Zegada-Lizarazu et al, 2010), due to the rapid growth. One of the main technical problems for energy production through biomass is the generation of waste, such as fly ash (Ortiz de Zárate et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

Utilización de residuos vegetales para la eliminación de fósforo en aguas residuales mediante procesos de adsorción

Anton¹,

Manuel²

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Desarrollo de pellets a partir de tres especies leñosas bajo condiciones mediterráneas

Cited by 6 publications

References 11 publications

The Bioenergetic Potential of Four Oak Species from Northeastern Mexico

The Bioenergetic Potential of Four Oak Species from Northeastern Mexico

Potencial energético de clones de Paulownia y Miscanthus para la producción de energía en Chile

Utilización de residuos vegetales para la eliminación de fósforo en aguas residuales mediante procesos de adsorción

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