生的和碳化的棕榈仁壳的下抽气气化

2017 3rd International Conference on Power Generation Systems and Renewable Energy Technologies (PGSRET) Pub Date : 2017-04-01 DOI:10.1109/PGSRET.2017.8251798

N. Samiran, M. Jaafar, C. Chong, A. Valera-Medina, J. Ng

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引用次数: 1

摘要

下吸式气化是一种潜在的生产生物质发电的方法，适合于小型发电应用。在本研究中，下吸式气化炉用于气化生棕榈仁壳和干燥棕榈仁壳(PKS)。在气化之前，对棕榈仁壳的性质进行了表征。PKS的最高温度为400℃。碳化PKS的含水率比原仁壳低4.8%。原料气化表明，与原料相比，碳化PKS产生的反应合成气组分含量更高，CO含量为16.4%，H2含量为9.25%(按体积计)。碳化PKS产生的合成气总低热值比原料PKS高7.2 MJ/kg。碳化PKS和生PKS的气化炉内温度分布对比显示出明显的差异，在等效比为0.41和0.30时，生PKS和碳化PKS的氧化区温度分别为1115oC和1138oC。虽然这两种原料都显示出很高的合成气生产潜力，但碳化PKS产生的合成气LHV更高。

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Downdraft gasification of raw and torrefied palm kernel shell

Downdraft gasification is a potential method to produce biomass-based power suited for small-scaled power generation application. In the present study, a downdraft gasifier is used to gasify both raw and torrefied palm kernel shell (PKS). The properties of the palm kernel shells were characterised prior to gasification. Torrefaction of PKS was performed at the maximum temperature of 400 oC. Torrefied PKS shows lower moisture content by 4.8% as compared to raw kernel shell. Gasification of the feedstock showed that torrefied PKS produced higher amount of reactive syngas components, notably 16.4% CO and 9.25% H2 (by volume) than its raw counterpart. The total lower heating value of the syngas produced by torrefied PKS is 7.2 MJ/kg higher than that of raw PKS. Comparison of the temperature profiles within the gasifier for torrefied and raw PKS show distinct differences, with the temperature of the oxidation zone for raw and torrefied PKS being 1115oC and 1138oC at the equivalence ratio of 0.41 and 0.30, respectively. Although both feedstock show high potential for synthesis gas production, torrefied PKS produces syngas of higher LHV.

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2017 3rd International Conference on Power Generation Systems and Renewable Energy Technologies (PGSRET)

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