排序方式: 共有32条查询结果,搜索用时 15 毫秒
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钢铁冷锻加工中的磷化工序一般采用酸洗法去除毛坯上的氧化膜。现介绍用抛丸处理工艺替代酸洗方法,可以大幅度减少工业污染,降低生产成本,提高工艺质量。 相似文献
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After adding either organic or inorganic ligands, sulfidated nano-zero-valent iron (SnZVI) was used for aerobic degradation of phenol, and the effect of the ligand species on oxidation performance was investigated. We found that SnZVI hardly degraded phenol in the absence of ligand addition. Ligands initiated and promoted the degradation of pollutants by SnZVI. The data herein show that a characteristic inorganic ligand, tripolyphosphate (TPP), is more effective in enhancing oxidation than a characteristic organic ligand oxalate. In addition to the scavenging of reactive oxidants by the organic ligand, more ferrous ion (Fe(II)) dissolution from SnZVI in the TPP system is another cause for the superior enhancement by the inorganic ligand. In the oxalate system, as the sulfur content of SnZVI increased, the oxidation efficiency increased because FeS shell promoted the transfer of electrons to produce more reactive oxygen species (ROS). In TPP system, the effect of sulfur content on oxidation performance is more complex. The SnZVI with low sulfur content showed poor oxidation performance compared with that of nZVI. Further experiments proved that sulfidation might weaken the complexation of TPP with surface bound Fe, which would slow down the ionic Fe(II) dissolution rate. Therefore, sulfidation has the dual effects of enhancing electron transfer and inhibiting the complexation of inorganic ligands. In addition, the mechanisms of ROS generation in different ligand systems were investigated herein. Results showed that the critical ROS in both the oxalate and TPP systems are hydroxyl radicals, and that they are produced via one-electron activation of O2. 相似文献
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以可溶性淀粉为原料,在反相悬浮体系中合成N,N′-亚甲基双丙烯酰胺交联淀粉微球为载体,研究了新型吸附材料淀粉微球(cross-linked starch microsphere,CSMs)对Mn+(Cu2+、Cr3+、Pb2+)的静态吸附行为。利用扫描电镜、X射线衍射仪和红外光谱仪对微球及其吸附产物进行表征,分析讨论了3种金属原子结构,研究了吸附机理。结果表明:308K时,Cu2+、Pb2+和Cr3+的饱和吸附量分别是2.43、0.30和0.27 mmol/g,CSMs对Cu2+离子吸附能力最强,并且其通过物理吸附、配位吸附方式吸附Mn+,并得出引起微球吸附能力大小可能与金属离子电荷、离子半径和外层电子排布的差异因素有关。 相似文献
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Yuzhu Dong Shanghua Wu Haonan Fan Xianglong Li Yijing Li Shengjun Xu Zhihui Bai Xuliang Zhuang 《环境科学学报(英文版)》2022,34(2):82-93
Polycyclic aromatic hydrocarbons(PAHs) are ubiquitous priority pollutants that cause great damage to the natural environment and health. Average genome size in a community is critical for shedding light on microbiome’s functional response to pollution stress within an environment. Here, microcosms under different concentrations were performed to evaluate the selection of PAHs stress on the average genome size in a community. We found the distinct communities of significantly larger genome size w... 相似文献
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以可溶性淀粉为原料,在反相悬浮体系中合成N,N′-亚甲基双丙烯酰胺交联淀粉微球为载体,研究了新型吸附材料淀粉微球(cross-linked starch microsphere,CSMs)对Mn+(Cu2+、Cr3+、Pb2+)的静态吸附行为。利用扫描电镜、X射线衍射仪和红外光谱仪对微球及其吸附产物进行表征,分析讨论了3种金属原子结构,研究了吸附机理。结果表明:308K时,Cu2+、Pb2+和Cr3+的饱和吸附量分别是2.43、0.30和0.27 mmol/g,CSMs对Cu2+离子吸附能力最强,并且其通过物理吸附、配位吸附方式吸附Mn+,并得出引起微球吸附能力大小可能与金属离子电荷、离子半径和外层电子排布的差异因素有关。 相似文献
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由于可以同时实现污水中碳磷的快速分离,超短泥龄活性污泥系统在降低能耗与资源回收方面受到人们的广泛关注.本研究对不同 进水碳源(乙酸钠、丙酸钠、葡萄糖、生活污水)条件下超短泥龄活性污泥系统污泥性质、碳磷分离规律与分离机制、微生物动力学参数等进行了研究.结果表明,与生活污水相比,由单一碳源所培养超短泥龄活性污泥浓度较低,活性较高,但乙酸钠与丙酸钠培养活性污泥处于微膨胀状态.不同碳源培养系统中COD的去除性能并无明显差异(p>0.05),并且由于生活污水中含有悬浮物,COD去除性能弱于单一碳源培养系统.不同碳源培养系统中磷酸盐的去除性能存在较大差异,乙酸钠与丙酸钠基本依靠生物效应除磷,但生物效应无法实现高效除磷,葡萄糖与 生活污水培养系统均同时依靠生物效应与EPS吸附效应除磷,不同碳源培养系统除磷效率排序为:葡萄糖>生活污水>丙酸钠>乙酸钠.研究同时发现,碳源分子量越小,培养系统中活性污泥生物活性越高,异养菌生长与衰减系数越高. 相似文献
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