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首页> 外文期刊>Journal of water reuse and desalination >Performance and mechanism of anaerobic biotrickling filter for removal of sulfite, sulfate, and hydrosulfite
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Performance and mechanism of anaerobic biotrickling filter for removal of sulfite, sulfate, and hydrosulfite

机译:厌氧生物滴滤池去除亚硫酸盐,硫酸盐和连二亚硫酸盐的性能及机理

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A biotrickling filter (BTF) was designed for removal of sulfite (SO32?), sulfate (SO42?), and hydrosulfite (HSO?3) produced from ?ue gas adsorbent during dual-alkali ?ue gas desulfurization. With an SO32? concentration of 0.89 g-S/(L packing), BTF could completely remove SO32? within 3 h with an elimination capacity (EC) of 296 g-S/(m3h). With an SO42? concentration of 0.60 g-S/(L packing), the removal efficiency (RE) of SO42? reached 90.3% at 5.25 h and 95% at 24 h. With an HSO?3 concentration of 0.74 g-S/(L packing), HSO?3 could not be detected in the trickling liquid at 2 h with an EC of 370 g-S/(m3h). The difference in desulfurization performance of the BTF was minor when sodium lactate and sodium acetate were used as carbon sources. Acetate was more superior when taking both the carbon/sulfur ratio (C/S) and RE into account. The total dissolved sulfide yield was over 70% with sodium acetate as the carbon source, which was 15–20% higher than that with sodium lactate. Sodium lactate was not completely degraded and acetic acid was produced. All oxidation–reduction potential values were lower than ?370 mV, indicating a perfect anaerobic condition in the BTF. The BTF could efficiently treat sulfite, sulfate, and hydrosulfite and could replace the regeneration stage of the dual-alkali process.
机译:设计了一种生物滴滤器(BTF),用于去除在双碱式烟气脱硫过程中由烟气吸附剂产生的亚硫酸盐(SO32?),硫酸盐(SO42?)和亚硫酸氢盐(HSO3)。使用SO32?浓度为0.89 g-S /(L包装),BTF是否可以完全去除SO32? 3 h内消除能力(EC)为296 g-S /(m3h)。用SO42?浓度为0.60 g-S /(L包装),SO42的去除效率(RE)?在5.25小时达到90.3%,在24小时达到95%。当HSO3浓度为0.74 g-S /(L堆积)时,在2个小时的EC值为370 g-S /(m3h)的滴流液中无法检测到HSO3。当使用乳酸钠和乙酸钠作为碳源时,BTF的脱硫性能差异很小。当同时考虑碳/硫比(C / S)和RE时,乙酸盐更为优越。以乙酸钠为碳源的总溶解硫化物产率超过70%,比乳酸钠高15-20%。乳酸钠未完全降解,产生了乙酸。所有氧化还原电位值均低于370 mV,表明BTF处于理想的厌氧条件。 BTF可以有效地处理亚硫酸盐,硫酸盐和亚硫酸氢盐,并可以替代双碱法的再生阶段。

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