阳极消耗

  • 网络anode consumption;anode dissipation
阳极消耗阳极消耗
  1. 采用阳极消耗法制备了纳米ZnO粉体,并利用XRD,TEM,XPS,UV-Vis和PL测试技术对样品进行了表征。

    Nano-ZnO prepared by anode consumption method was characterized by XRD , TEM , XPS , UV-Vis and PL.

  2. 电解铝炭素阳极消耗研究评述

    Research Review of Carbon Anode Consumption in Aluminum Electrolysis

  3. 纳米ZnO的阳极消耗法制备和表征

    Preparation and Characterization of Nano-ZnO by Anode Consumption

  4. 降低炭阳极消耗对铝厂经济效益的影响

    Reducting Anode Carbon Consumption Has Influence on Economical Benefit of Aluminium Plants

  5. 铝用炭阳极消耗的机理和影响因素

    The consumption mechanism of carbon anode for aluminum electrolysis and its influencing factors

  6. 石油焦性能与阳极消耗

    Function of petroleum coke and the consumes with anode

  7. 介绍了炭阳极消耗机理。

    The mechanism of carbon anode consumption is introduced .

  8. 采用电化学方法和阳极消耗率评价法研究了高硅铸铁阳极在方波脉冲电流作用下的电化学性能。

    The electrochemical performance of High Silicon-Iron Anodes Exerted by Square Wave Pulsed Currents ( SWPCs ) was studied by electrochemical .

  9. 分析了钙熔盐电解过程石墨阳极消耗的两个因素,即主要有氧化消耗和物理破损。

    The consumption of the graphite anode in the calcium molten salt electrolysis process is analyzed , which includes oxidation consumption and physics damage .

  10. 本文针对铝电解工业中,电能消耗高和炭素阳极消耗大的突出问题,以铝电解节能、节炭、降低生产成本为主要目的。

    Highly energy consumption and excessive carbon consumption are the prominent problems in aluminum electrolysis , Energy saving and carbon saving play an important role in aluminum production and are the primary object of this study .

  11. 本论文还应用灰箱分析法研究了所选择的五类元素形成合金后与开路电位、工作电位、阳极消耗率、镀层消耗厚度、电流效率和腐蚀均匀性的关联度。

    Mathematical grey-box interrelation analysis method was used to study the correlation between five selected alloy elements and open circuit potential , working potential , anode depletion rate , coating consume thickness , current efficiency and corrosion uniformity .

  12. 本文不但从理论上,说明降低铝用炭阳极消耗会提高电流效率、增加铝产量和降低电耗,而且列举国内外的实例证明上述理论。

    This article not only explained theoretically reducing anode carbon consumption for aluminium can increase current efficiency , increase aluminium output and decrease electrical consumption , but also listed the practice examples at home and abroad which proved above-mentioned theory .

  13. 石墨阳极消耗随电流密度增加而略有提高,其范围在135~150%之间。石墨阳极相对于理论的过多消耗主要是由于阳极气体逸出和电解质的搅动引起的。

    For a graphite anode a slight increase was observed , and the consumptions were higher in the ravage 135 ~ 150 % , and the gas evolution and electrolyte stirring may be the main reason for the excess anode consumption .

  14. 与现场测试对比,认为随着阳极消耗,电阻、压降都随之下降。同时,由于电流值较大,在小电阻上的压降较高,从而使测量准确度提高。

    Compared with measure results , it was known that along with anode consumed , anodic resistance and voltage-drop became more and more small . In the mean time , the voltage drop in resistance is very high because of the heavy current , and then measuring accuracy is enhanced .

  15. 浅析电解铝过程阳极净消耗量影响因素

    Preliminary Analysis on Influencing Factors of Net Anode Consumption During Aluminum Electrolysis

  16. 阳极过量消耗既是阳极净耗过高,不利于电解铝成本控制,是生产中应该避免的。

    Anode excessive consuming result in difficult control over costs , so it should be banished .

  17. 一旦阳极棒消耗完,热水器将开始被腐蚀,并最终发展成泄漏。

    Once the anode is depleted , the tank will start to corrode , eventually developing a leak .

  18. 同等条件下阳极的消耗率比直流作用时的小。

    Under the same condition , the con-sumption rate of the anode exerted by SWPCs was smaller than that exerted by DC .

  19. 工业试验结果证明了降低炭阳极净消耗会提高电流效率和铝产量,降低铝电解电耗和电解质温度的理论;

    The theories of reducing carbon anode net consumption resulted from increasing current efficiency and aluminum productivity , reducing electrical consumption and bath temperature were proved by industrial test results .

  20. 降低阳极焙烧系统重油消耗的有效措施

    Effective measures to reduce the consumption of heavy oil in anode baking system

  21. 研究结果得出,预焙阳极的炭阳极消耗随阳极电流密度的增加而趋向于理论消耗110%左右。

    The measured results indicated that the carbon consumption of a prebaked anode decreased slightly with increasing anode current density towards a value of about 110 % of the theoretical consumption .

  22. 预焙阳极的电化学过程选择性氧化是造成阳极过多消耗的主要原因。

    For prebaked anode , however , the selective oxidation may rather be the main cause of the excess anode consumption .

  23. 指出铝电解用的预焙阳极高度的选择,直接影响到铝电解槽的阳极电压降、直流电耗、阳极消耗量等技术指标。

    It points out that the choice of prebaked anode height used in alumimium electrolysis may directly impact the voltage drop of anode , direct current consumption , anode consumption and other technical index in aluminium electrolytic cell .

  24. 铝电解生产中,碳素阳极两组分(石油焦和沥青结焦)的活性差异带来阳极的选择性氧化,是造成碳素阳极过量消耗的主要原因之一。

    Selective oxidation of carbon anode in aluminum electrolysis caused by reactivity difference between pitch coke and petroleum coke is one of the main causes for excess carbon consumption .

  25. 提出采用在炭素阳极表面原位固化制备以氧化铝溶胶为基本粘结相、相对致密的氧化铝涂层(膜)的方法,达到减少阳极氧化、降低阳极过量消耗的目的。

    In order to reduce the ratio of the anode oxidation and excessive anode consumption , the writer puts forward a method that the relatively compact alumina coatings ( film ), alumina sol as the basic cohere component , is prepared on carbon anode surface by original located solidification .