首先,高铁酸盐是强氧化剂。
本文主要综述了高铁酸盐的电化学制备方法。
The paper mainly summarizes the electrochemical preparation of ferrate(VI) due to its simple process and non-pollution.
高铁酸盐与硝基苯的反应符合一级动力学规律。
The reaction between ferrate and nitrobenzene followed the first-order kinetic law.
研究了高铁酸盐氧化絮凝去除水中藻类的机制。
The mechanism of algae removal in water with ferrate oxidation-coagulation was studied.
这使得高铁酸盐极其具有活性,而这也是Daly先生希望挖掘出的活性。
That makes ferrates extremely reactive, and it is this reactivity which Mr Daly hopes to exploit.
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。
Ferrate yet to give full play to the many advantages, it is necessary to conduct in-depth systems.
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。
The article introduced the research history, preparation, application of Potassium Ferrate, and prospected it's development.
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。
The research progress of ferrate in water treatment, organic synthesis and super-iron batteries materials is introduced.
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。
Ferrate is an efficient multipurpose water treatment agent with the properties of oxidation, flocculation, sterilization and so on.
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。
The water treatment agent ferrate is prepared by electrolysis in diaphragm bath with double cathode chamber and porous cylinder cast iron anode.
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。
Ferrate Treatment Technologies' trick is to make ferrates on site, for instant use, rather than attempting to transport them to where they are needed.
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。
Azo dyes methyl orange, acidic eriochrome blue and chrome black t degraded by electro-generated ferrate was reported.
此外,当它的使命结束后,高铁酸盐中的铁离子也会以氧化铁的形式沉淀,过滤后就是洁净的水了。
Moreover, once it has done its job, the iron in ferrates precipitates too, as iron oxide, leaving pure water behind.
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。
With the further research of the ferrates, the application fields of ferrates, potassium ferrate as a representative, will be more extensive.
但是在高铁酸盐中(是铁原子、氧原子以及非过渡金属如纳原子、钙原子的化合物),它失去了6个电子。
But in ferrates, which are compounds of iron and oxygen with non-transition metals like sodium and calcium, it loses six.
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。
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.
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。
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.
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。
The solution of ferrate was produced by electrolysis method in this paper, and using the agar gel as septum which was not reported.
国内外应用高铁酸盐和次氯酸钠处理含氰离子废水方面的研究比较多,但对于含重金属氰配合物的废水却很少研究。
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 .
本文以松花江水为本底,以微量苯酚和重金属离子铅与镉为研究对象,通过烧杯搅拌试验,初步考察了高铁酸盐的除污染效能。
The pollutant removal effect of ferric coagulant was researched by stirring jar test to remove trace phenol and heavy metal ions of Pb and Cd in Sungari River.
根据上海硅酸盐研究所有关岩相的分析表明,紫砂黄泥属高岭—石英—云母类型,含铁量很高,最高含铁量达8.83%。
According to the analysis about the Shanghai Institute of Silicate facies showed purple Wong belongs kaolin - quartz - mica type, high iron content, the highest iron amounted to 8.83%.
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。
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.
对采自中国四川盆地的高演化碳酸盐烃源岩进行了干法(原样)、加水、加铁、加酸等多介质条件下的模拟实验研究。
The high maturated carbonate hydrocarbon source rocks from Sichuan basin were studied by use of dry process, watering method, adding iron and adding sour simulation experiment.
本文以高碱度烧结矿中的铁酸盐黏结相为研究对象,考察了黏结相的熔化特性随黏结相组成的变化规律。
This paper studied the melting characteristics of binding phase in high-basicity sinter and got the relationship between the melting temperature and binding phases composition.
碳酸盐岩中自生碳酸盐矿物主要为文石、高镁方解石,少量白云石、铁白云石和菱铁矿。
X-ray studies show that carbonate minerals are aragonite, high-Mg calcite, and lesser dolomite, ankerite and siderite.
碳酸盐岩中自生碳酸盐矿物主要为文石、高镁方解石,少量白云石、铁白云石和菱铁矿。
X-ray studies show that carbonate minerals are aragonite, high-Mg calcite, and lesser dolomite, ankerite and siderite.
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