Study on Characteristics of Oil Palm Empty Fruit Bunch to Predict Condensation Temperature of Tar from its Pyrolysis Gas

J. Joni, A. Tambunan, R. P. Setiawan, K. Siregar
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引用次数: 1

Abstract

Palm oil is one type of plants that has various advantages. One of the advantages is almost all parts of the plant, such as trunk, empty fruit bunch (EFB), and the extracted oil, can be utilized as energy. Utilization of EFB for energy, especially the use of combustible gas as direct feed of combustion engines to generate electricity is still rarely used. This is related to the water content and the large amount of volatile substances that will give an unfavorable impact on the quality of the gas produced. To overcome this, information on the characteristics and thermophysical properties, such as dew point, of gases from the EFB biomass is indispensable. In this study, three EFB samples were taken from three different environmental conditions, namely samples A, B and C, to be analyzed. The elemental and proximate analysis as well as GCMS pyrolysis test of the samples were then used to characterize the EFB and determine its thermo-physical properties in terms of its dew point. The elemental analysis of the EFB samples showed disparity of its content, which was around 52.08 ± 7.59% (C), 7.05 ± 0.53% (H), 2.28 ± 0.43% (N), 0.35 ± 0.36% (S) and 34.84 ± 4.45% (O). Likewise, the proximate analysis showed differences around 4.49 ± 2.60% (MC), 5.80 ± 1.97% (FC) and 73.44 ± 3.78% (VM). From the elemental and proximate analysis, it can be predicted that tar compounds produced from pyrolysis of the EFB at a temperature of 400oC, was in the form of mixed oxidation compounds (mixed oxygenates). The compounds were classified as the first tar compound (class 2) consisting of phenols (ketones, phenol and guaiacol). The condensation temperature and the concentration of the tar in its pyrolysis gas were predicted to be 204.22oC, tar 1720.79 mg/Nm3 (sample A); 256.02oC, tar 92.97 mg/Nm3 (sample B); and154.85oC, tar 359.02 mg/Nm3 (sample C), respectively. This information can be useful in designing the tar elimination devices from the pyrolysis gas.
油棕空果串特性预测其裂解气中焦油冷凝温度的研究
棕榈油是一种具有多种优点的植物。其中一个优点是,植物的几乎所有部分,如树干、空果束(EFB)和提取的油,都可以作为能源利用。利用EFB作为能源,特别是使用可燃气体作为内燃机的直接进料来发电的情况仍然很少。这与水含量和大量挥发性物质有关,这些物质会对所产气体的质量产生不利影响。为了克服这一点,关于EFB生物质气体的特征和热物理性质(如露点)的信息是必不可少的。在本研究中,选取了三种不同环境条件下的三种EFB样本进行分析,分别是样本A、B和C。然后利用元素分析和近似分析以及GCMS热解测试对样品进行表征,并根据露点确定其热物理性质。元素分析显示其含量差异较大,分别为52.08±7.59% (C)、7.05±0.53% (H)、2.28±0.43% (N)、0.35±0.36% (S)和34.84±4.45% (O),近似分析显示其含量差异约为4.49±2.60% (MC)、5.80±1.97% (FC)和73.44±3.78% (VM)。从元素分析和近似分析可以预测,在400℃的温度下,EFB热解产生的焦油化合物以混合氧化化合物(混合氧合物)的形式存在。这些化合物被归类为由酚类(酮类、酚类和愈创木酚类)组成的第一类焦油化合物(2类)。热解气体中焦油的冷凝温度为204.22oC,焦油浓度为1720.79 mg/Nm3(样品A);256.02oC,焦油92.97 mg/Nm3(样品B);154.85℃,焦油359.02 mg/Nm3(样品C)。这些信息可用于设计热解气中的除焦油装置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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