共查询到19条相似文献,搜索用时 78 毫秒
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近年来,超滤技术在废水净化及废水再生等方面取得了不少新成果,有着广阔的应用前景。综述了超滤技术在重金属废水、食品工业废水、纺织印染工业废水、含油废水、生活污水及其它领域中的研究概况,展示了该技术在相应废水处理中的发展趋势。 相似文献
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近年来,膜技术得到了迅速的发展,膜组件系统已经开始国产化。膜分离法在城市给水和废水处理等领域扮演着重要的角色。本文将从各类膜的工作原理、在给水和废水处理中的应用、膜分离法存在的问题以及对膜分离法技术发展的展望等四个方面进行介绍,旨在为环境保护工作者提供一定的参考与借鉴。 相似文献
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膜技术作为一种新型分离技术,在水处理领域得到了广泛的应用。文章综述了电渗析、液膜、反渗透、纳滤、沉淀-微滤、胶束增强超滤和聚合物强化超滤等各种膜分离技术的分离原理、特点,在重金属废水处理中的应用以及目前存在的问题。最后展望了膜技术在重金属废水处理领域的应用前景。 相似文献
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采用石灰乳中和并沉淀味精废水中的硫酸盐。实验结果表明CaO的最佳添加量约为20g/L废水,SO4^2-的浓度可以从8000mg/L降到450mg/L,去除率达90%。 相似文献
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介绍用戈尔膜分离技术处理硫酸、磷酸装置废水的工艺过程及操作特点。针对山东红日集团硫酸、磷酸装置废水的特点,提出中和、过滤、固-液分离工艺。运行情况表明,排水清澈透明,各项指标达到国家排放标准,可以循环使用。该处理工艺具有流程简单,占地面积小、运行成本低、操作管理方便等特点。 相似文献
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味精废水的治理技术及其发展趋势 总被引:8,自引:0,他引:8
介绍了味精废水治理的工艺技术与存在的问题,提出并阐述了在废水治理过程中必须把废水治理与清洁生产和综合利用相结合的观点,这是彻底治理味精废水新技术的发展趋势。 相似文献
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根据味精废水和饮料废水水质互补性较强的特点,将味精废水和饮料废水混合,可降低味精废水中有机污染物浓度,并提高饮料废水可生物降解性。选用水解酸化-接触氧化-生物炭三段式生物法工艺对混合废水进行处理,节省了工程投资。2年多的运行结果表明,在混合进水中有机污染物、氨氮等浓度较高的条件下,经上述工艺处理后,出水水质可达到GB 8978—1996的一级排放标准,COD和BOD的去除率均超过99%,氨氮的去除率超过96%。 相似文献
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沸石吸附-SBR工艺对味精废水脱氮的试验研究 总被引:2,自引:1,他引:1
针对味精废水高氨氮的特点,提出并利用沸石吸附—SBR组合工艺进行味精废水脱氮。研究结果表明:沸石吸附—SBR组合工艺对味精废水中的氨氮具有较好的去除效果。沸石吸附氨氮可以减轻后续生化处理负荷,为最终出水氨氮能够达标排放创造条件。SBR进水阶段采用限制性曝气方式;运行工况为进水曝气8h、厌氧搅拌1h、后段曝气1h、沉淀lh、排水0.5h;硝化反应过程pH控制在8左右;硝化阶段、反硝化阶段溶解氧(DO)质量浓度分别控制在2.0mg/L和0.5mg/L左右。组合工艺出水NH3-N能满足《味精工业污染物排放标准》(GB19431—2004)中50mg/L的限值要求,组合工艺对NH3-N的平均去除率达96.7%。 相似文献
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The present study aimed at investigating the characteristics of monosodium glutamate (MSG) microcapsules. Spray-drying was used to prepare the microcapsules, in which the core material (MSG) was coated with gum Arabic (GA) and maltodextrin (MD), and the weight ratio of MD with GA was 1:2. The characteristics of microcapsules were evaluated by scanning electron microscopy (SEM), moisture content, particle size, Fourier-transform infrared (FTIR), differential scanning calorimeter (DSC), thermogravimetry analysis (TGA), release behavior, the flavor, and taste in hot-pot. Few concave wrinkles were observed on the quasispheres surface of microcapsules coated with GA and MD. The particle size of the microcapsules ranged from 14.00 to 30.00 µm in the mean diameter, and moisture content was 2.08%. An FTIR study indicated a successful packet of MSG by wall materials and the formation of MSG microcapsules during spray drying. Results of DSC and TGA showed that hybrid encapsulation was conducive to the improvement of thermal stability of MSG. In the release of hot-pot study, tests of slow-release, electronic nose, and electronic tongue demonstrated that MSG microcapsules were available in hot water conditions to release. The MSG microcapsules coated with GA and MD exhibited long time for slow-release. Therefore, spraying drying is a suitable approach to manufacture slow-released powdered microcapsules. 相似文献
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Hongyan Ren Fubao Sun Shaoyuan Shi Wei Cong 《Journal of chemical technology and biotechnology (Oxford, Oxfordshire : 1986)》2008,83(7):1027-1033
BACKGROUND: The large output of monosodium glutamate in China has produced huge amounts of isoelectric supernatant containing 40–60 g L−1 (NH4)2SO4. With the increasing national emphasis on environmental protection and recycling, it is necessary to find a cost‐effective and environment‐friendly alternative to recover the (NH4)2SO4. This paper reports on investigations of the electrodialysis process for (NH4)2SO4 recovery from isoelectric supernatant pretreated by ceramic membrane. RESULTS: For ceramic membrane pretreatment, the optimal pore size chosen was 0.2 µm. After a 250 min run, permeate flux was still maintained at 90 L m−2 h−1 (v = 2.8 m s−1, ΔTMP = 0.12 MPa, concentration factor = 7). Meanwhile, the total solids and proteins content in condensed supernatant were high, up to 78 g L−1 and 24 g L−1, respectively, which greatly favors future cell protein harvest. With the chosen current density of 17 mA cm−2, the energy consumption and time for six consecutive batches for electrodialysis were 2.6–2.7 kW h kg−1 sulfate and ∼100 min, based on ∼80% ammonium sulfate recovery from pretreated isoelectric supernatant. CONCLUSION: Ceramic membrane pretreatment was shown to be a promising pretreatment strategy, applicable to the electrodialysis process to recover ammonium sulfate from isoelectric supernatant produced during monosodium glutamate production. Copyright © 2008 Society of Chemical Industry 相似文献
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