并进一步探讨了高铁酸钾的氧化机理和絮凝机理。
And to further explore the mechanism of potassium ferrate oxidation and flocculation mechanism.
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。
Preparation of potassium ferrate and its application in water treatment are studied in this paper.
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。
This paper introduces the preparation, properties and its application in the treatment of drinking water of potassium ferrate.
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.
另外,还考察了不同反应条件下高铁酸钾对水中2,4,6-三氯酚的去除效果。
In addition, the removal efficiency of the 2,4,6-trichlorophenol in water at different reaction conditions by K_2FeO_4 were studied.
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.
对模拟苯胺浑浊水样的实验研究显示,高铁酸钾预氧化可有效提高PAC混凝的有机物去除能力。
And the tests of treating simulated aniline water sample indicated, that potassium preoxidation can enhanced the ability of PAC coagulation to remove organic matter.
第五章研究了使用聚合物PEO-KOH-H2O固态凝胶电解质所组装的固态高铁酸钾电池的电化学性能。
In the fifth chapter, the polymer gel PEO-KOH-H2O foil was prepared and used as the electrolyte for K2FeO4 battery.
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.
高铁酸钾与2,4,6-三氯酚的氧化反应为一级反应,且主要发生在最初的几分钟内,是一个快速反应过程。
Removals under such conditions of the 2,4,6-trichlorophenol usually occurs within a few minutes and are rapid reaction processes.
结果表明,造纸废水经酸化后的粉煤灰处理及高铁酸钾处理后,其COD值、浊度、色度均降至排放标准以下。初探了净化机理。
The results show that COD, cloudiness and colority of the papermaking wastewater are all decreased under the discharging standard and the mechanism of cleaning is discussed.
结果表明,造纸废水经酸化后的粉煤灰处理及高铁酸钾处理后,其COD值、浊度、色度均降至排放标准以下。初探了净化机理。
The results show that COD, cloudiness and colority of the papermaking wastewater are all decreased under the discharging standard and the mechanism of cleaning is discussed.
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