对硫铁矿烧渣的碳还原过程进行研究。
异化铁还原过程具有重要的环境意义。
Dissimilatory iron reduction showed important environmental significances.
在还原过程中,仅需完成以下几个步骤。
During restore, there are only a few steps to carry out, as listed below.
认知的介入同样是诗人“志”的还原过程。
The "faithfulness" to the original poems is set up on the basis of the reversion of poets' intentions.
铁的氧化还原过程是水稻土的重要特征之一。
The process of iron oxidation and reduction is an important characteristic of paddy slurry.
提出了酶催化反应机理及其产物的电极还原过程。
The processes of the enzyme - catalyzed reaction and the electroreduction of the product of the enzyme - catalyzed reaction are described.
为了获得低硅炼钢生铁,必须控制高炉内硅的还原过程。
In order to obtain low silicon iron for steelmaking the reduction process of silicon must be controlled in blast furnace.
对化学镀锡的机理从置换过程和还原过程两个方面进行研究。
The mechanism of electroless plating tin was investigated from displacement process and reduction process.
讨论了还原过程的进展方式和表明表面不均匀性的动力学行为。
The progressive manner of reduction process and the kinetic behavior showing the surface heterogeneity are discussed.
硝酸盐作为硫酸盐还原过程的抑制剂,表现了很好的抑制效果。
Nitrate is inhibitor of the process of sulphate reduction , and have evident inhibition.
本课题对氧化镁真空碳热还原过程进行了理论研究和试验研究。
The thesis expounds on the magnesia reduction by carbon theoretically and experimentally.
探讨了粉状铬铁矿在流化床内的流化性质、还原过程和加煤条件。
Investigates experimentally the fluidization and reduction processes and coal - adding conditions of powdered chromite ores in a fluidized bed.
目前研究表明氧化铁厌氧还原主要是微生物介导的异化还原过程。
Now some research said the process of iron oxide anaerobic reduction is mainly a microbial dissimilatory iron reduction.
水稻土中铁的微生物还原过程在土壤环境化学方面具有特殊的意义。
The process of iron reduction by the microorganism has an important significance in the soil environmental chemistry of paddy slurry.
分析讨论了高挥发分、高反应性煤在窑内的行为及对还原过程的影响。
The behaviour of this kind of coal in the kiln was analysed and the effect of the coal behaviour on the reduction process was discussed.
以流动电流为参数,研究了水处理条件下氧化还原过程的电动化学特性。
Taking streaming current SO as the essential parameter, this paper focuses on the electrokinetic chemistry characteristics of oxidation and reduction process in water treatment condition.
结果表明药物自膜中的释放是由聚吡咯膜的电化学氧化还原过程决定的。
The result shows that the release of 5-fu from the PPy film depends on the electrochemical REDOX process of the PPy film.
以流动电流为参数,研究了水处理条件下氧化还原过程的电动化学特性。
Potentiodynamic was used to measure the performance of the electro-catalysts for the oxygen electro-reduction.
对催化铁内电解法中铁表面腐蚀历程以及电化学还原过程进行了初步探索。
The process of the surface corrosion in iron and electrochemical reduction was been studied.
本文阐述了再燃烧技术原理,分析了影响再燃烧技术还原过程的主要因素。
This paper presents the mechanism of reburning technology and analyzes the main influence factors during reburning process.
用冷态模型和高温实验的方法,进行了熔融还原过程熔池中起泡现象的研究。
The foaming phenomenon in iron bath was studied by means of hydrodynamic model and high temperature experiment method.
利用中止还原的方法,研究了稀土元素对掺杂钨粉还原过程及其性能的影响。
It shows that the rare earth elements can slow the doped tungsten powder's reductive rate and it takes more time for doped tungsten powder with rare earth to split than those without.
但是,在11.70中创建的任何块或空间,不管使用什么方法,在还原过程中保持不变。
However, any chunks or Spaces created in 11.70, regardless of the method used, will remain intact during the reversion process.
试验结果表明,硫酸盐还原过程碱度增加,各种形式的碱度之间会发生相互转化;
The experimental results showed that alkalinity increased during sulfate-reduction, and different form of alkalinity could convert each other to a certain.
通过比较煤粉和煤焦对NO还原过程的不同,分析了异相机理对NO还原的重要性。
The importance of heterogeneous mechanism on the NO reduction is analyzed by comparing the difference in NO reduction of pulverized coal and its char.
结果表明:实际还原过程属于非平衡态过程,它的还原机理与还原气体的成分相关。
The results show that reduction process is of nonequilibrium process, and its kinetics depend on compositions of reducing gas.
本法通过催化剂的合成和自还原过程去除了杂质,实现了活性组分的金属化和高分散化。
The method removes impurities by synthesis process and self-reduction process of the catalyst and realizes metallization of the active component and high dispersion.
本法通过催化剂的合成和自还原过程去除了杂质,实现了活性组分的金属化和高分散化。
The method removes impurities by synthesis process and self-reduction process of the catalyst and realizes metallization of the active component and high dispersion.
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