电镀废水

  • 网络electroplating wastewater;electroplating effluent;electroplating water
电镀废水电镀废水
  1. pH值调控在电镀废水处理中的作用

    Function of the pH Value Control in the Treatment of Electroplating Wastewater

  2. 含铬电镀废水中Cr(Ⅵ)的萃取分离研究

    Study on Extraction of Cr ( VI ) from Electroplating Wastewater

  3. 电镀废水中Cr(Ⅵ)还原微机自动控制传感信息的研究

    Study of sensing information on automatic treating cr (ⅵ) waste water

  4. 廉价高分子吸附剂处理含Cr(Ⅵ)电镀废水

    Adsorption of Cr (ⅵ) by Polymer Cheap Adsorbents in Electroplating Wastewater

  5. 电镀废水中Cr(Ⅵ)的次甲基蓝分光光度法研究

    Determination of Chromium (ⅵ) in Electroplating Wastewater with Methylene Blue by Spectrophotometry

  6. 含Cr(Ⅵ)电镀废水处理研究进展

    Research Progress of Plating Hexavalent Chromium Contaminated Water

  7. PE过滤器在电镀废水处理中的应用

    PE-Filter Applied to Electroplating Effluent Treatment

  8. 用活性炭为吸附剂处理含Cr(Ⅵ)电镀废水探讨

    Discussion of Disposing the Electroplate Wastewater Containing Cr (ⅵ) by the Active Charcoal as the Adsorbent

  9. γ-Al2O3微孔膜制备及其处理电镀废水的研究

    Preparation of γ - Al_2O_3 Membrane and Its Application in Electroplating Wastewater Treatment

  10. SR4菌株处理电镀废水中Ni~(2+)的研究

    Removal of Ni ~ ( 2 + ) in Electroplating Wastewater by SR_4 Bacteria

  11. 通过电镀废水治理的实时控制,讨论APPLE机在工业环境中的应用。

    This paper discusses the application of APPLE microcomputer to industrial environment by real - time control in electroplating waste water processing .

  12. 简介PE过滤器结构、原理及其在电镀废水处理中的应用。

    It briefly introduced the PE-filter in terms of construction . operating principle and its application to electroplating effluent treatment .

  13. 本法可直接用于水样及电镀废水中Cr(Ⅵ)的测定。

    The method has been used to determine trace Cr (ⅵ) in natural water and electroplating water with satisfactory results .

  14. RO循环水系统在电镀废水中的应用

    Application of RO Recycle Water Systemin Electroplating Waste Water Treatment

  15. 4-甲基-2-戊酮萃取分离,EDTA络合滴定法测定含铬、铝电镀废水中的铝

    Analysis of Aluminum Ion in Electroplating Wastewater with 4-methyl-2-pentanone as Extractant and EDTA Complexometry

  16. 电镀废水中的Cr(VI)和Cr~(3+)快速测定方法的研究

    Study on Method of Fast Measurement for Cr ( VI ) and Cr ~ ( 3 + ) in Electroplating Wastewater

  17. δ-MnO2复合PFS对电镀废水中重金属的处理研究

    δ - MnO_2 Composite PFS of Heavy Metals in Electroplating Wastewater Treatment of Research

  18. SRV菌去除电镀废水中铜的研究

    Research of copper removal from electroplating wastewater by SRV bacteria

  19. 高分子重金属絮凝剂PEX处理电镀废水研究

    Study on Application of Macromolecule Heavy Metal Flocculant PEX in Electroplating Wastewater Treatment

  20. 物化法是处理混合电镀废水的一种有效方法,对COD、Pb离子、Ni离子尤其是Pb离子、Ni离子的处理效果非常理想。

    The physics and chemistry theorem was a valid method to disposal the mixing electroplating water for removing COD 、 Ni 、 Pb , particularly Pb and Ni with very ideal result .

  21. 采用化学法自动控制处理含铬和含镍电镀废水,选择合适的化学药剂和pH、ORP控制参数,连续式处理电镀废水。

    Adopt automation treatment to treat electroplating wastewater containing chromium and nickel in chemical method , selecting proper chemical medicament , pH and ORP controls parameter continuously .

  22. 本文研究了亚铁盐与聚丙烯酰胺(PAM)复合絮凝剂处理电镀废水中Cr6+的絮凝效果、性能和机理。

    The flocculent effect , properties and mechanism were studied in treating Cr 6 + in electroplate wastewater using mixed flocculant Fe 2 + + PAM .

  23. 结果表明,在最佳投药量、pH值条件、投药顺序、反应时间的条件下,氰的去除率可以达到99.7%以上,实现了含氰电镀废水的有效处理和安全排放。

    The result showed that with the optimal dosage , appropriate pH value , adding drug order , oxidized time , the dispose ratio could reach to 99.7 percent , realizing the efficacious treatment and safe discharge .

  24. BCO光度法测定碱性镀锌液中微量铜电镀废水中微量锌的比色测定

    Spectrophotometric Determination of Trace Copper in alkaline zinc plating bath with BCO

  25. 本文探讨了利用5-Br-PADAP测定电镀废水中微量锌的显色条件。

    This paper explores chromogenic conditions of determining trace zinc in metal plating wastewater by spectrophotometry using the 5-Br-PADAP and the emolsifier OP.

  26. 本文研究了络阴离子交换处理含氰电镀废水的条件:流速、浓度、pH值、温度、再生时间、再生剂用量、再生剂浓度、清洗液用量等;

    Several conditions in the treatment of dicyan electroplating waste water by complex anion exchange have been studied . The conditions studied are velocity , concentration , PH , temperature , regenerating duration , concen - tration of regeneration agent and quantity of cleaning agent ;

  27. 针对铝离子和铬化合物共存的电镀废水,采用4-甲基-2-戊酮作为萃取剂分离六价铬,EDTA络合滴定法测定铝含量,分析结果令人满意。

    Used 4-methyl-2-pentanone as extractant , heavy chromic acid group was extracted in the electroplating wastewater in which aluminum ion and chromium compond coexist . And then aluminum ion was analyzed with EDTA complexometry . The analysis result was satisfying .

  28. 本文根据AHP法的原理,结合电镀废水治理特点,建立综合评价废水治理技术的层次结构模型,并进行运算分析。

    According to the principle of analytical hierarchy process ( AHP ), in combination with the character of electroplating wastewater , a model of hierarchy structure has been established , which is applied in comprehensive assessment of the wastewater treatment technique . The model is calculated and analysed .

  29. 采用沸石进行电镀废水处理时,其最佳过流速度为4~5m/h,此时,Zn,Cr,Ni的有效去除率分别达到80%,60%,40%以上,工作周期可长达12h以上。

    The best flow velocity to remove heavy metal ions in plating wastewater is 4 ~ 5 m / h , whereas the removal efficiency for Zn , Cr , Ni reaches 80 % , 60 % and 40 % respectively , with an effective operation time over 12 hours .

  30. 分别以含Cu2+模拟废水和电镀废水为对象,研究了不溶性淀粉黄原酸盐聚丙烯酰胺接枝共聚物(ISXA)去除Cu2+和降低浊度的能力。

    Insoluble starch xanthate acrylamide ( ISXA ) is effective for removing metal ions and turbidity due to properties of its two components : insoluble starch xanthate ( for metal removal ) and starch-acrylamide graft copolymer for turbidity reduction ) .