多种农业生物质衍生型煤的流化床气化

Rukayya Ibrahim Muazu, A. Borrion, J. Stegemann
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引用次数: 5

摘要

生物质型煤气化被认为是高效利用型煤发电、燃料和其他有用化学品的一种有前途的途径。然而,以前的研究主要集中在固定床气化炉中的型煤气化,如上升气流和下降气流气化炉。流化床气化炉有潜力有效地规模到中型或大型。本研究调查了在鼓泡流化床气化炉中使用由稻壳和玉米芯生物质混合物生产的燃料压块。本研究采用数值方程与asppenplus模拟软件相结合的方法,基于型煤密度和生物质组成(稻壳与玉米芯的混合比例)对产品气(合成气)组成进行预测。Aspen Plus模型基于文献中经过实验验证的模型。以直径为32 mm、密度为500 ~ 650kg/m3的型煤为例,研究结果表明,随着型煤密度的增加,气化炉内所需的流化空气量也随之增加,且与生物质型煤实际气化所需的空气量相比,流化空气量是控制因素。预测合成气组分中CO2的质量流量随着气化炉内空气流量的增加而增加,而CO减少,h2几乎不变。在设计的工艺空气条件下,不同稻壳与玉米芯混合物的H2 / CO比变化不显著,但稻壳与玉米芯10/90和90/ 10%混合物的H2 / CO比差异显著(1.0)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fluidised Bed Gasification of Multiple Agricultural Biomass Derived Briquettes
Biomass briquette gasification is regarded as a promising route for efficient briquette use in energy generation, fuels and other useful chemicals. However, previous research has been focused on briquette gasification in fixed bed gasifiers such as updraft and downdraft gasifiers. Fluidised bed gasifier has the potential to be effectively sized to medium or large scale. This study investigated the use of fuel briquettes produced from blends of rice husks and corn cobs biomass, in a bubbling fluidised bed gasifier. The study adopted a combination of numerical equations and Aspen Plus simulation software, to predict the product gas (syngas) composition base on briquette density and biomass composition (blend ratio of rice husks to corn cobs). The Aspen Plus model was based on an experimentally validated model from the literature. The results based on a briquette size 32 mm diameter and relaxed density range of 500 to 650kg/m3, indicated that fluidisation air required in the gasifier increased with increase in briquette density, and the fluidisation air showed to be the controlling factor compared with the actual air required for gasification of the biomass briquettes. The mass flowrate of CO2 in the predicted syngas composition increased with an increase in air flow, in the gasifier, while CO decreased and H2 was almost constant. The ratio of H2 to CO for various blends of rice husks and corn cobs did not significantly change at the designed process air, but a significant difference of 1.0 was observed between 10/90 and 90/10 % blend of rice husks and corn cobs.
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