1. The reaction between ferrate and nitrobenzene followed the first-order kinetic law.
高铁酸盐与硝基苯的反应符合一级动力学规律。
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2. The mechanism of algae removal in water with ferrate oxidation-coagulation was studied.
研究了高铁酸盐氧化絮凝去除水中藻类的机制。
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3. And to further explore the mechanism of potassium ferrate oxidation and flocculation mechanism.
并进一步探讨了高铁酸钾的氧化机理和絮凝机理。
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4. Ferrate yet to give full play to the many advantages, it is necessary to conduct in-depth systems.
高铁酸盐的许多优越性尚未充分发挥,很有必要进行深入系统的研究。
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5. Preparation of potassium ferrate and its application in water treatment are studied in this paper.
本论文主要研究了高铁酸钾的合成及其应用于水处理的效果。
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6. Potassium ferrate, a non-chloric multi-function water treating agent, has a broad application prospect.
酸钾是一种非氯的多效水处理剂,具有广阔的发展前景。
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7. Azo dyes methyl orange, acidic eriochrome blue and chrome black t degraded by electro-generated ferrate was reported.
以电化学法制备的高铁酸盐对甲基橙、酸性铬蓝、铬黑t等偶氮类染料进行降解脱色。
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8. The paper mainly summarizes the electrochemical preparation of ferrate(VI) due to its simple process and non-pollution.
本文主要综述了高铁酸盐的电化学制备方法。
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9. The research progress of ferrate in water treatment, organic synthesis and super-iron batteries materials is introduced.
介绍了高铁酸盐在水处理、有机物氧化合成及高铁电池材料领域的研究进展。
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10. The article introduced the research history, preparation, application of Potassium Ferrate, and prospected it's development.
简要介绍了高铁酸盐的研究历史、高铁酸钾的制备方法、应用领域及展望。
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11. This paper introduces the preparation, properties and its application in the treatment of drinking water of potassium ferrate.
介绍了高铁酸钾的制备、性质以及在饮用水处理方面的应用。
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12. Primary alkali battery was constituted with cathode of barium ferrate, anode of titanium diboride and KOH solution as electrolyte.
以高铁酸钡为正极材料,二硼化钛为负极材料,碱性氢氧化钾溶液为电解质构成了一次性碱性电池。
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13. The solution of ferrate was produced by electrolysis method in this paper, and using the agar gel as septum which was not reported.
本文采用电解法制备高铁酸盐溶液,制备过程中首次使用了琼脂凝胶作为物理隔膜,这在国内外未有文献报道。
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14. Ferrate is an efficient multipurpose water treatment agent with the properties of oxidation, flocculation, sterilization and so on.
高铁酸盐是一种集氧化、絮凝、杀菌等为一体的环境友好型多功能水处理剂。
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15. The efficiency of removing alachlor from water by the integrated process of ferrate oxidation and activated sludge has been studied.
研究了高铁氧化—活性污泥耦合工艺去除水中甲草胺的效能。
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16. With the further research of the ferrates, the application fields of ferrates, potassium ferrate as a representative, will be more extensive.
随着对高铁酸盐研究的不断深入,以高铁酸钾为代表的高铁酸盐的应用领域将更为广阔。
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17. The water treatment agent ferrate is prepared by electrolysis in diaphragm bath with double cathode chamber and porous cylinder cast iron anode.
采用双阴极室隔膜电解槽,以多孔圆筒铸铁为阳极电解制备水处理剂高铁酸盐。
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18. This study focuses on the integrated ferrate oxidation and activated sludge process for the mineralization of alachlor from aquatic environment.
研究了高铁氧化-活性污泥串联耦合工艺去除水中甲草胺的效能。
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19. Ferrate Treatment Technologies' trick is to make ferrates on site, for instant use, rather than attempting to transport them to where they are needed.
高铁酸盐技术处理所所玩的戏法就是将高铁酸盐现场即用,而非运送到异地再使用。
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20. Potassium ferrate was added during the treatment of seawater by coagulation and sedimentation processes, and the coagulation aid effect was investigated by a jar test.
在混凝沉淀处理海水的过程中,预投加高铁酸钾,通过烧杯试验考察了其助凝效果。
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21. The stability of ferrate materials is main problem faced by super-iron batteries. The preliminary assumption about further researches on these batteries are given here as well.
指出超铁材料的稳定性是该电池研究面临的重大问题,并对超铁电池的进一步研究提出了初步的设想。
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22. Studies of waste water Containing cyanogen were quite many with ferrate and sodium hypochlorite , the study is very few about waste water Containing heavy metal complex with cyanogen .
23. Ferrate is green, non-pollution chemical agent and has powerful oxidization and high selectivity. From the view of protecting environment, the application of ferrate is more remarkable.
高铁酸盐是绿色、无污染化学试剂,具有强氧化性和高选择性,从环保角度出发,其用途更是引人注目。
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24. For developing high efficiency and secure coagulants, Potassium ferrate prepared by hypochlorite oxidation method was used in the treatment of raw water with low temperature and low turbidity.
为了研制高效和安全的混凝剂,采用次氯酸盐氧化法制备高铁酸钾,对高铁酸钾处理低温低浊水源水进行研究。
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25. The results showed that some organic compounds could be removed from micro-polluted source water by preoxidation with ferrate, which had good effect of aid to the coagulation and turbidity removal.
试验结果表明,对于微污染水源,高铁酸盐预氧化可有效地去除部分有机物,并具有良好的助凝除浊作用。
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26. The results showed that some organic compounds could be removed from micro-polluted source water by preoxidation with ferrate, which had good effect of aid to the coagulation and turbidity removal.
