Syngas Production from Agriculture Residues: Sudan

A. A. Rabah
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引用次数: 2

Abstract

The study is aimed at evaluating the availability of agriculture residues for syngas production, a case study for Sudan. 10 types of biomass are investigated: sugarcane (bagasse), cotton stalks, sesame straw, groundnut shells, maize straw, sorghum straw, millet straw, sunflower husks, wheat straw, and banana leaves. The available biomass is about 11 Mt/year (3.68 Mtoe). Aspen plus software is applied to simulate the gasification process. The study covered a wide range of operating conditions of steam to biomass ratio ( 0 < SB < 2 ) and equivalent ratio (   0 > ER > 0.5 ). For all types of syngas characteristics, H2 is 0.32-0.42 (mole fraction), CO is 0.13 to 0.16 (mole fraction), LHV is 5.0 to 8.0 MJ/kg, and the yield is ≥1.5. Wheat, groundnut, and sunflower have the best characteristics, while millet and bagasse yield the poorest characteristics. In addition, all types of syngas have H 2 / CO > 2 except Millet. These characteristics make all types of syngas except millet suitable for both energy and industry applications. The potential syngas production is 14.17 Mt/year.
利用农业残留物生产合成气:苏丹
该研究旨在评估农业残留物用于合成气生产的可行性,这是苏丹的一个案例研究。研究了10种生物质:甘蔗(甘蔗渣)、棉花秸秆、芝麻秸秆、花生壳、玉米秸秆、高粱秸秆、小米秸秆、葵花籽壳、小麦秸秆和香蕉叶。可利用生物量约为1100万吨/年(368万吨油当量)。应用Aspen plus软件对气化过程进行模拟。本研究涵盖了广泛的蒸汽生物质比(0 ER > 0.5)工况。各类型合成气特性H2为0.32 ~ 0.42(摩尔分数),CO为0.13 ~ 0.16(摩尔分数),LHV为5.0 ~ 8.0 MJ/kg,产率≥1.5。小麦、花生和向日葵的产量特征最好,而谷子和甘蔗渣的产量特征最差。此外,除谷子外,所有类型的合成气h2 / CO > 2。这些特点使得除小米以外的所有类型的合成气都适合能源和工业应用。合成气的潜在产量为1417万吨/年。
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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28 weeks
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