Chemical and Energetic Properties of Seven Species of the Fabaceae Family

Federico Salazar-Herrera, L. F. Pintor-Ibarra, Ricardo Musule, Cynthia Adriana Nava-Berumen, J. Alvarado-Flores, Nicolás González-Ortega, J. G. Rutiaga-Quiñones
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Abstract

In this work, the chemical compositions and energetic properties of the wood and bark of seven Fabaceae species were determined to evaluate their dendroenergetic potential. Chemical composition, elemental, proximate and heating value analyses were conducted. In addition, an ash microanalysis was performed. The obtained results varied as follows: cellulose (from 20.21% in Parkinsonia aculeate bark to 58.83% in Albizia plurijuga sapwood), hemicelluloses (from 8.81% in Eysenhardia polystacya heartwood to 23.71% in Pakinsonia aculeate wood), lignin (from 12.88% in wood to 26.53% in bark of Parkinsonia aculeate), extractives (from 11.68% in sapwood to 36.17% in bark of Eysenhardia polystacya), carbon (from 42.4% in Albizia plurijuga bark to 49.5% in Eysenhardtia polystacya heartwood), hydrogen (from 6.4% in Eysenhardtia polystacya bark to 7.3% in Albizia plurijuga sapwood), oxygen (from 42.3% in Prosopis laevigata bark to 50.5% in Acacia pennatula bark), nitrogen (from 0.11% in Albizia plurijuga heartwood to 1.64% in Prosopis laevigata bark), sulfur (from 0.04% in Prosopis laevigata heartwood to 0.14% in Acacia farnesiana wood, Erythina caralloides bark, and Prosopis laevigata bark), ash (from 0.76% in Eysenhardtia polystacya heartwood to 11.49% in Acacia plurijuga bark), volatile material (from 70.08% in Eysenhardtia polystacya bark to 91.75% in Albizia plurijuga sapwood), fixed carbon (from 6.97% in Albizia plurijuga sapwood to 23.44% in Prosopis laevigata bark), and calorific value (from 17.36 MJ·kg-1 in Acacia pennatula bark to 21.23 MJ·kg-1 in Prosopis laevigata bark). The most abundant chemical elements in wood ash and bark ash are listed here: Ca˃K˃P˃Mg˃Na. According to the obtained results, the wood and bark of the seven Fabaceae species could be used to produce solid biofuels for local use. Additionally, highlighting the high concentrations of extractives was important, especially in the bark samples, which could be a potential source of phytochemicals.
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七种豆科植物的化学和能量特性
这项研究测定了七种豆科植物的木材和树皮的化学成分和能量特性,以评估它们的树枝能量潜力。研究进行了化学成分、元素、近似值和热值分析。此外,还进行了灰分显微分析。结果如下:纤维素(从 Parkinsonia aculeate 树皮中的 20.21% 到 Albizia plurijuga 边材中的 58.83%)、半纤维素(从 Eysenhardia polystacya 心材中的 8.81% 到 Pakinsonia aculeate 木材中的 23.71%)、木质素(从 Parkinsonia aculeate 木材中的 12.88% 到 Parkinsonia aculeate 树皮中的 26.53%)、萃取物(从边材中的 11.68% 到 Eysenhardia polystacya 树皮中的 36.17%)、碳(从 Albizia plurijuga 树皮中的 42.4% 到 Eysenhardtia polystacya 心材中的 49.5%)、氢(从 Eysenhardtia polystacya 树皮中的 6.4% 到 Albizia plurijuga 边材中的 7.3%)、氧(从 Prosopis laevigata 树皮中的 42.3% 到 Acacia pennatata 树皮中的 50.5%)、氮(从Albizia plurijuga心材的0.11%到Prosopis laevigata树皮的1.64%)、硫(从Prosopis laevigata心材的0.04%到Acacia farnesiana木材、Erythina caralloides树皮和Prosopis laevigata树皮的0.14%)、灰分(从Eysenhardtia polystacya心材的0.76%到Prosopis plurijuga树皮的11.49%)、挥发性物质(从 Eysenhardtia polystacya 树皮的 70.08% 到 Albizia plurijuga 边材的 91.75%)、固定碳(从 Albizia plurijuga 树皮的 6.97%到23.44%),以及热值(从相思树树皮的17.36兆焦耳-千克-1到红花继木树皮的21.23兆焦耳-千克-1)。这里列出了木灰和树皮灰中最丰富的化学元素:Ca˃K˃P˃Mg˃Na。根据所得结果,这七种豆科植物的木材和树皮可用于生产当地使用的固体生物燃料。此外,突出高浓度萃取物也很重要,尤其是树皮样本,这可能是植物化学物质的潜在来源。
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