Pengaruh Variasi Bentuk Adsorben Karbon Aktif dan Scale-up Kolom Terhadap Kinerja Adsorpsi CO2 Dalam Biogas

Yanti Suprianti, Yoga Rahmat Pangestu, Purwadi Iriani
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Abstract

Biogas as a renewable energy source is now starting to be considered as an alternative energy to replace BBM and CNG. Biogas from cow dung generally has a concentration of 50-70% CH4 as a substance that can be used as fuel, accompanied by 25-50% CO2, 0.3-3% N2, 1-5% H2, and H2S. The presence of accompanying substances, especially CO2, which has no calorific value (cannot be burned), can reduce the overall calorific value of biogas. One way to separate the CO2 gas is by adsorption. However, at a small column capacity, the adsorbent is often saturated quickly after being operated for a certain time. One way to get around this is to make the adsorbent into a more compact form, such as pellets. By combining granular and pellet activated carbon, this study wanted to identify the effect of variations to produce the best biogas composition and compare its performance when scaled up. The results showed that mixture A (70% granular activated carbon and 30% pellet) produced the best biogas, namely 83.1% in the initial column and 89.3% in the scale up column, with CO2 impurities removed and a small amount of other gases. The absorption performance in the form of adsorption effectiveness showed that each variation showed 100% effectiveness. The breakthrough curve shows that mixture C (30% granular activated carbon and 70% pellet) gave the highest resistance for 7 minutes on the initial column and 10 minutes on the scale up column. The volume of biogas that was adsorbed, the volume of biogas/column height, and the total amount of remove solute were best indicated by mixture A with 72 Liters, 180 Liters/m, and 8,208 Liters in the initial column, and 159 Liters, 212 Liters/m, respectively. and 21,942 Liters in the scale up column. Scale up has a significant impact on the performance of mixed C adsorbent with an increase in the volume of biogas that is adsorbed by 2.75x, the volume/height of the column increases by 1.47x, and the total of remove solute by 3.29x. Keywords: adsorption, adsorbent, granular activated carbon, pellet, scale up
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活性炭在沼气中的吸附形式变化和柱放大面CO2吸附发动机
沼气作为一种可再生能源,正在成为BBM和CNG的替代能源。牛粪沼气一般具有浓度为50-70%的CH4作为燃料物质,并伴有25-50%的CO2, 0.3-3%的N2, 1-5%的H2和H2S。伴随物质的存在,特别是CO2,它没有热值(不能燃烧),可以降低沼气的整体热值。分离二氧化碳气体的一种方法是吸附。但在塔容量较小的情况下,吸附剂在运行一定时间后往往很快饱和。解决这个问题的一种方法是将吸附剂制成更紧凑的形式,例如颗粒。通过结合颗粒活性炭和颗粒活性炭,本研究希望确定变化对产生最佳沼气组成的影响,并在放大后比较其性能。结果表明,混合料A(70%颗粒活性炭和30%颗粒活性炭)产气量最佳,初始柱产气量为83.1%,放大柱产气量为89.3%,除CO2杂质外,其他气体少量。吸附效果形式的吸附性能表明,各变异均为100%有效。突破曲线显示,混合物C(30%颗粒活性炭和70%颗粒活性炭)在初始柱上7分钟和放大柱上10分钟的阻力最高。吸附沼气体积、沼气体积/柱高、去除溶质总量以初始柱浓度分别为72 l、180 l /m、8208 l、159 l、212 l /m的混合物A表示最佳。放大柱中有21,942升。放大对混合C吸附剂性能有显著影响,吸附的沼气体积增加2.75倍,塔身体积/高度增加1.47倍,去除溶质总量增加3.29倍。关键词:吸附,吸附剂,颗粒活性炭,颗粒,放大
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