湿式和抗污染中空纤维膜用于厌氧废水处理出水溶解甲烷的回收

ty10086 提交于 周三, 08/25/2021 - 16:46
文章英文标题
Wetting- and fouling-resistant hollow fiber membranes for dissolved methane recovery from anaerobic wastewater treatment effluents
正文
摘要\n厌氧污水处理工艺因其在污泥管理和净能耗方面的优势日益广泛。主流厌氧工艺能量效益背后的一个主要原因是甲烷( CH4 )的产生。尽管如此,三分之一以上产生的CH4通常仍以溶解形式存在于废水中。为了从厌氧出水中回收溶解的CH4 ( dCH4 ),多孔膜启动的膜接触器( MC )工艺提供了一个很有前途的途径。然而,膜的润湿和结垢问题阻碍了该概念的实际实施。在这里,我们报告了一种可以用实际厌氧出水运行的耐湿和污染的中空纤维膜。用共形层聚二甲基硅氧烷( PDMS )涂复高度多孔( ~ 85 % )中空纤维支架提供了抗润湿性,但污垢持续存在。为了解决污垢问题,我们用短( 147 )的PDMS基两亲性共聚物对未固化的PDMS涂层进行后处理
文章内容(英文)
Abstract(#br)Anaerobic wastewater treatment processes are becoming increasingly widespread due to their advantages in sludge management and net energy consumption. One major reason behind the energy benefit of the mainstream anaerobic processes is methane (CH 4 ) production. Nevertheless, over one-third of the produced CH 4 typically remains in effluent streams in dissolved form. To recover the dissolved CH 4 (dCH 4 ) from anaerobic effluents, the membrane contactor (MC) process enabled by porous membranes offers a promising way. However, membrane wetting and fouling issues hinder the practical implementation of the concept. Here we report a wetting- and fouling-resistant hollow fiber membrane that can operate with realistic anaerobic effluents. Coating of a highly porous (~85%) hollow fiber support with a conformal layer of polydimethylsiloxane (PDMS) provides resistance to wetting, but fouling persists. To tackle the fouling issue, we post-treated the uncured PDMS-coatings with PDMS-based amphiphilic copolymers with short (147\u0026#160;Da) or long (~1570\u0026#160;Da) side chains. Both types of post-treated membranes exhibited an improved performance when tested against effluent samples taken not only from an anaerobic membrane bioreactor but also from an upflow anaerobic sludge blanket (UASB) reactor. The membrane treated with the short-side-chain copolymer could sustain 7 days of continuous operation with UASB effluent with a performance loss of only ~10%. We observed that the fouling layers were much richer in proteins rather than subtances similar to humic and fulvic acids and microbial byproducts. Besides, we calculated that our wetting/fouling-resistant membranes provide a net energy benefit for the MC process (when the recovered CH 4 is retrofitted to the process as fuel). Thus, our results suggest that the MC-based dCH 4 recovery process is a viable alternative for industrial practices in case the demonstrated custom-designed membranes are employed.
来源出处
Journal|[J]Journal of Membrane ScienceVolume 617, 2021.
DOI
https://doi.org/10.1016/j.memsci.2020.118621

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品牌型号:道康宁SYLGARD184

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产品颜色:保质期限:36个月

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备注说明:

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