Process analysis and gasification of rice husk by using downdraft fixed bed gasifier

8TH BSME INTERNATIONAL CONFERENCE ON THERMAL ENGINEERING Pub Date : 2019-07-18 DOI:10.1063/1.5115951

M. E. Hoque, F. Rashid, S. Aziz, M. Rahman, P. Das

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引用次数: 3

Abstract

The use of fossil fuels has great impact on environment and energy security problems. Besides, the rising cost of fuel oil compelled the industry to search for alternative fuels, and biomass in general and rice husks in particular are considered a suitable candidate. Bio energy has significant potential contribution for sustainable energy systems, especially when converted to modern energy carriers such as electricity, gaseous or liquid fuels. Rice is cultivated in more than 75 countries in the world. The rice husk is the outer cover of the rice and on average it accounts for 20% of the paddy produced, on weight basis. The worldwide annual husk is about 80 million tons with an annual energy potential of 1.2∼109 GJ corresponding to a heating value of 15 MJ/kg. Maximum rice husk produced by milling process of rice mills in Bangladesh usually burned in the mill boilers to produce process heat for parboiling of paddy rice and excess husk are sold to the market as fuel for cooking purposes and a considerable portion is misused. Therefore, syngas from rice husk can be produced as an auspicious source of energy. It can be used to generate heat and power like natural gas, synthesize other chemicals and liquid fuels, or produce H2. One of the promising approaches for syngas production from biomass is downdraft fixed bed gasification among the several approaches till developed. Optimization of operating conditions (combustion zone temperature, reaction zone temperature, intake air temperature, humidity of intake air and air flow rate) can give a satisfactory result for the quality syngas production. In this paper rice husk was used as potential biomass feed stocks. The moisture content of the feed material is less than 10% on weight basis and consumption rate of rice husk is 3.62 kg/h. Temperature inside the reaction zone (970∼994) K, primary air flow rate 2.7 m3/h, humidity of outside air (45∼50%) and exit temperature of the producer gas (140∼160)°C were measured. This paper gives an optimistic operating condition for quality syngas production.

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稻壳下吸式固定床气化工艺分析与研究

化石燃料的使用对环境和能源安全问题产生了巨大的影响。此外，燃料油成本的上升迫使该行业寻找替代燃料，而一般的生物质，特别是稻壳被认为是一个合适的候选者。生物能源对可持续能源系统具有重大的潜在贡献，特别是在转化为电力、气体或液体燃料等现代能源载体时。世界上有超过75个国家种植水稻。稻壳是水稻的外层，按重量计算，它平均占水稻产量的20%。全世界每年的稻壳约为8000万吨，年能量潜力为1.2 ~ 109 GJ，相当于15 MJ/kg的热值。孟加拉国碾米厂碾磨过程产生的最大稻壳通常在碾米厂锅炉中燃烧，以产生用于大米煮熟的过程热量，多余的稻壳作为烹饪燃料出售给市场，其中相当一部分被滥用。因此，从稻壳中提取合成气可以作为一种吉祥的能源。它可以像天然气一样用来产生热量和电力，合成其他化学物质和液体燃料，或者产生氢气。在目前尚未开发的几种方法中，有一种很有前途的生物质合成气生产方法是下吸固定床气化。优化操作条件(燃烧区温度、反应区温度、进气温度、进气湿度和进气流量)可以获得满意的效果，从而保证优质合成气的生产。本文将稻壳作为潜在的生物质原料加以利用。饲料含水率按重量计小于10%，稻壳消耗率为3.62 kg/h。测量了反应区内温度(970 ~ 994)K，一次风流量2.7 m3/h，外部空气湿度(45 ~ 50%)和产气出口温度(140 ~ 160)℃。本文给出了高质量合成气生产的乐观运行条件。

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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8TH BSME INTERNATIONAL CONFERENCE ON THERMAL ENGINEERING

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