电耗

  • 网络power;Electricity consumption;kWh
电耗电耗
  1. 运行结果表明,精制盐水的pH值自控更为稳定,提高了电解效率、降低了电耗。

    The result of operation indicated that pH value automatic control of refined brine ran more stable , electrolytic efficiency was improved and electricity consumption was reduced .

  2. 单槽电压由3.177V降至3.116V,吨碱电耗下降42.5kW·h。

    The voltage of unit cell decreased from 3.177 V to 3.116 V , the electricity consumption decreased by 42.5 kW · h / ( t · NaOH ) .

  3. GDP能耗与电耗的关系

    Relation between the Energy Intensity and Electricity Intensity of GDP

  4. 二次电解阴极电效100%,直流电耗0.19Kwh/kg·In。

    Electricity efficiency for secondary electrolysis was 100 % , with the power consumption being 0.19kwh/Kg . In .

  5. 经过对冷冻釜和离心机结构的改进,提高了精肼质量,降低了AC生产的电耗。

    After structure innovation of refrigerating kettle and centrifuge , quality of refining hydrazine hydrate was improved and power consumption in AC production were decreased .

  6. 催化电解法去除渗滤液中COD和NH3-N的电耗研究催化电解法处理垃圾渗滤液的研究

    On Power Consumption of Catalyse Electrolytic Removal of COD and NH_3-N from Refuse Leachate

  7. 废水的原始COD越高,法拉第电流效率就越高,最大电耗就越小。

    Higher the original COD in wastewater is , higher the Faradic current efficiency is , whereas smaller the maximum electrical consumption is .

  8. 在常温下,AMT系统分解池电耗在90-100kw。

    At the room temperature , when the electric energy consumption of AMT decompose poll was 90-100 kw .

  9. 降低10t电弧炉电耗工艺措施

    Process measures for reduction on electric consumption of 10-T electric arc furnace

  10. 100t交流竖式电弧炉冶炼电耗技术分析

    Analysis of power consumption on 100 t AC shaft electric arc furnace

  11. 将COD降至一级排放标准,所需电解时间约82min,电耗为37.33kWh/T。

    In order to comply with the secondary discharge standard , the electrolysis time was about 82 minutes and the energy consumption was about 37.33 kWh / T.

  12. 虽然广义预测控制比模糊自适应PID控制的电耗指标减少不多,但从长期来看广义预测控制还是要相对节能一些。

    Although the energy consumption index of generalized predictive control is a little less than that of fuzzy adaptive PID control , the generalized predictive control is energy saving in the long run .

  13. NH3左右,电耗由850KWh/t。

    NH3 , the consumption of electricity will drop from 850KWh / t.

  14. 内容涉及温度电耗的关系分析、CAD建模的空间需求、电量平衡数学模型的建立、数据采集实现方式、用户路况行驶概率统计和发动机转速概率分布。

    It includes temperature-power consumption relationship analysis , space requirements of CAD model establishment , mathematics model establishment of power balance , data acquisition means , probability statistics of user ′ s driving and probability distribution of engine speed .

  15. 采用正交试验方法,考察了电流密度、电解液PH值、电解温度、氯化钠含量等对电解电耗的影响,确定了FA-Ⅱ电解槽最佳工艺条件。

    For which , orthogonal test can be employed to examine the effect upon the electric consumption in the process of electrolysis brought by the current density , PH value of electrolytic solution , electrolytic temperature and sodium chloride content .

  16. 分析了配合料中P2O5、Fe2O3、CO2对电耗的影响。

    The influences of P 2O 5 , Fe 2O 3 , CO 2 in the mixed raw materials on power consumption are analyzed .

  17. 石钢50t电弧炉炼钢炉料结构对电耗的影响

    Effect of Charging Structure on Electric Power Consumption of a 50 t Arc furnace at Shijiazhuang Iron and Steel

  18. 该文重点研究杂质元素Fe、Ni、Sn等对锌电解精炼效果诸如电流效率、直流电耗、阴极锌品位、阴极沉积物形貌的影响。

    It is demonstrated that impurities of Fe , Ni and Sn have influence on the electrorefining results such as current efficiency , direct current ( DC ) consumption , impurities content in cathodic zinc and the cathodic zinc appearance .

  19. 为了降低电解制氢的电耗,提高经济效益。作者对枪黑色Sn-Ni合金在NaOH溶液中的析氢电流化性能进行了研究。

    Electrocatalysis performance of black Sn-Ni alloy was studied to reduce the energy loss and increase the economic effect in hydrogen production by electrolysis in NaOH solution .

  20. 常规湿式与CT-121脱硫的电耗分析

    Analysis of electricity cost between general wet process and CT-121 FGD

  21. 根据电力弹性系数的定义,推导出电力弹性系数与GDP增速和GDP平均电耗及GDP电耗下降速度间的关系表达式,并介绍利用这一关系式进行电量预测的新方法。

    Base on the definition of electricity elasticity coefficient , the correlation formula between the electricity elasticity coefficient and electricity intensity of GDP is derived , and a Introduce a new method of load forecast using electricity elasticity coefficient is put forward .

  22. 试验表明:在常压、80℃、采用鼓泡床吸收器对含2%的硫化氢气体的一次吸收率可达99%,电解制氢电耗可降至2.0kw·h/Nm3H2。

    The results show that the once-through absorption rate of 2 % H2S containing gas can reach 99 % and electricity consumption for hydrogen production can be reduced to 2.0 kWh / Nm3 H2 under the condition of 80 ℃, nounal atmosphere and using the bubbling bed absorption unit .

  23. 对60kA侧插自焙阳极电解槽降低电耗的探讨

    Discussion on Reduction of Power Consumption of 60 KA Aluminium Electrolytic Cell with side-inserted Self-baking Anode

  24. 对采盐系统进行改进后,蒸发器生产能力提高了30%,电耗降低35kW·h/(t·NaOH),汽耗降低0.4t/(t·NaOH)。

    After improving the salt separation system , the capacity of evaporators increased by 30 % , the electricity consumption decreased by 35 kW · h / ( t · NaOH ) and steam consumption decreased by 0.4 t / ( t · NaOH ) .

  25. 通过应用稀土永磁高效节能电动机替代效率低的80余台JO2系列电动机,取得了在浮选机上应用的可喜成效,从而降低了浮选工序的电耗,这也是选矿生产节电的一种有效途径。

    A good result in power saving of flotation machine has been brought since replacing 80 JO_2 motors of low-performance by the energy-saving motor .

  26. 采用亚海水淡化技术对滩涂水库水淡化,建立了2m3/h的试验工程,试验过程中对水温、吨水电耗、进水TDS、产水TDS等指标的相关性进行了研究。

    A 2m3 / h test project for desalination of shoal water by seawater desalination technique was carried out . The mutual relationship between water temperature , power consumption per m3 product water , influent TDS , product water TDS etc.

  27. 论述了低渣比冶炼锰硅合金的条件和操作要点,阐明了炉料中Al2O3与电炉工艺参数、焦炭粒度之间的相互关系及其对电耗等指标的影响。

    It discusses the operation condition and keys in melting silicomanganese with low slag ratio . It also expresses the mutual relation of Al2O3 in charging with technological parameter of furnace , coke particle size and its effect on index , such as electricity consumption and so on .

  28. 50t电炉采用软沥青&氧燃助熔技术的应用结果表明,电炉冶炼周期缩短,每吨钢冶炼电耗降低,提高了设备产钢能力,摊薄了每吨钢的冶炼能源消耗,降低了炼钢成本。

    Soft asphalt-oxygen-lance technology has been applied into a 50 t electric arc furnace . Results show that the tap to tap cycle for the EAF has been shortened ; energy consumption per ton steel reduced ;

  29. 在冷料入炉条件下生产装料级铬铁产量增加约30%,单位电耗为2270kwh/t

    Output was increased around 30 % and the unit power consumption was 2270kWh / t on conditon with cool charge to produce charge FeCr

  30. 与原工艺相比,吨钢电耗降低55.3kW·h,还原期时间缩短4min/炉,炉龄由过去的53炉次提高到70炉次,并可降低材料消耗和工人劳动强度。

    This process can decrease power consumption of 55 3kWh / t , reduce reduction period time of 4 min / heat , decrease row material consumption and labour strength and enhance furnace life from 53 heats to 70 heats compared with old process method .