硫化氢和硅氧烷同时脱除工艺及氢氧化铁脱硫剂在沼气绿色制氢中的现场应用

IF 1.2 Q4 ENGINEERING, ENVIRONMENTAL Detritus Pub Date : 2023-06-30 DOI:10.31025/2611-4135/2023.18276
Jae Myung Lee, Jae-Hun Shin, Min Ju Lee, Whajung Kim, H. Song, S. Kim
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引用次数: 0

摘要

沼气是可再生能源之一,是碳中和的政策和建设氢能经济所必需的关键要素。为了利用沼气,应去除沼气中的杂质,如水分、硫化氢(H2S)、硅氧烷和挥发性有机物。特别是,由于H2S会通过硫氧化物对设备产生腐蚀性,如果泄漏会对人体有害,因此它是需要清除的主要目标物质。湿法可获得的H2S的最小浓度为几个ppm。然而,已知在干法中基于氢氧化铁的吸附剂可以最终获得低至0.1ppm或更低的H2S浓度。DeHyS是通过一系列工艺制造的,如混合氯化铁溶液或硫酸铁溶液、NaOH溶液和无机粘合剂。在吸附过程中,H2S以硫化铁的形式通过化学反应去除,已知硅氧烷通过物理吸附去除。它还应用于各种沼气厂,如垃圾填埋气、污水污泥、牲畜粪便和食物垃圾。此时,已知H2S去除效率为99.9%或更高,而同时去除90%或更高的总硅氧烷是可能的。此外,忠州食品生物能源中心生产的沼气使用DeHyS进行预处理,并供应到附近的忠州生物绿色氢气充电站,通过蒸汽甲烷重整(SMR)生产氢气,每天从8000立方米的沼气中生产500公斤氢气。
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Simultaneous removal process of hydrogen sulfide and siloxanes and field application of iron hydroxide desulfurization agent for green hydrogen production from biogas
Biogas, one of renewable energies, is a key element necessary for a carbon-neutral policy and to build a hydrogen economy. In order to utilize biogas, impurities of biogas such as moisture, hydrogen sulfide(H2S), siloxanes, and VOCs should be removed. In particular, since H2S causes corrosiveness of equipment by sulfur oxides, and is harmful to the human body if leaked, it is a major target material to be removed. The minimum concentration of H2S obtainable from the wet method is several ppm. It is known, however that the iron hydroxide-based adsorbent in the dry method can obtain ultimately low concentration of H2S down to 0.1 ppm or less. The DeHyS was manufactured through a series of processes such as mixing iron cloride solution or iron sulfate solution, NaOH solution, and inorganic binder. During the adsorption process, H2S was removed in the form of iron sulfide through a chemical reaction, and siloxanes are known to be removed through physical adsorption. It was also applied to various biogas plant sites such as landfill gas, sewage sludge, livestock manure, and food waste. At this time, the H2S removal efficiency was known to be 99.9% or more, while simultaneous removal of 90% or more of the total siloxanes was possible. Moreover, the biogas produced at the Chungju Food Bioenergy Center was pretreated using the DeHyS and supplied to the nearby Chungju Bio Green Hydrogen Charging Station to produce hydrogen through steam methane reforming(SMR), producing 500 kg of hydrogen from 8,000 m3 of biogas per day.
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来源期刊
Detritus
Detritus ENGINEERING, ENVIRONMENTAL-
CiteScore
3.30
自引率
23.50%
发文量
45
审稿时长
15 weeks
期刊最新文献
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