硫酸铁

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  • ferric sulfate;iron sulphate;pentlandite
硫酸铁硫酸铁
  1. 利用酸洗废液制取污水处理剂聚合硫酸铁

    Preparation of Polymerizing Iron Sulphate of Sewage Cleaning Anents by Acid Wastewater

  2. 对酸洗废液进行一次性处理,并制取污水处理剂聚合硫酸铁。

    Through primary treatment of acid wastewater , polymerizing iron sulphate of sewage cleaning anents is prepared .

  3. 探讨了石灰-硫酸铁三级中和法处理重金属酸性废水过程中pH值的设定。

    Discuss pH value enactment in treating heavy-metal acidic waste water with lime-sulphuric iron three steps neutralizing method .

  4. 聚合硫酸铁&H2O2法处理印染废水试验研究

    Experiement and Study on the Method of PFS-H_2O_2 Handling the Printing and Dyeing Water

  5. 选用聚合硫酸铁作为混凝剂,分别从pH值、混凝时间和聚合硫酸铁投加量考察其对砷去除效果的影响。

    Using PFS as a coagulant , from the pH 、 coagulation time and the dosage of the PFS to investigate its effect on arsenic removal .

  6. 聚合硫酸铁(PFS)在水处理中的应用

    The Application of Polymeric Ferric Sulfate ( PFS ) in Water Treatment

  7. 用聚合硫酸铁处理粉丝废水是可行的,COD去除率可高达80%。

    It is feasible to treat starch wastewater with PFS . The removal rate of COD can be as high as 80 % .

  8. 并通过烧杯混凝实验分析了投加量以及pH对聚合硫酸铁在粉丝废水中的混凝效果的影响。

    By jar tests , the effect of the PFS dosage and the pH value of the wastewater on the coagulating efficiency of the PFS in starch wastewater is analysed .

  9. 在聚合硫酸铁投加量为50mg/L,电气浮30min时COD去除率可达95.2%。

    The removal ratio of COD reached 95.2 % when the flotation time is 30 minutes .

  10. 本文进行了用硫铁矿烧渣制备聚合硫酸铁(PFS)的实验研究。

    Polymeric ferric sulfate ( PFS ) was prepared by pyrite cinder in this paper .

  11. 目前中国第一家也是唯一一家硫酸铁通过NSF认证的公司。

    At present , China 's first and only one ferric through NSF certified company .

  12. 以自制的复合硫酸铁Fe2(SO4)3&K2SO4催化剂合成了氯乙酸异辛酯。

    Complex Fe2 ( SO4 ) 3 was used as catalyst for the synthesis of isooctyl chloroacetate .

  13. 结果表明,在适宜的pH值和投加量条件下,聚合硫酸铁的盐基度在10%~16%时,絮凝效果较好,色度去除率为80%以上。

    The results showed that , a good flocculation effect with more than 80 % decoloration was obtained under the condition of appropriate pH value and input dosage and also 10 % ~ 16 % alkalinity of PFS ;

  14. 在利用硫酸铁去除五价砷[As(V)]的基础上研究了三价砷[As(III)]的氧化及去除,以寻求适合于分散式饮水中As(III)的氧化方法。

    The feasible methods for oxidation and removal of arsenite [ As (ⅲ) ] from dispersed drinking water were based on the removal of arsenate [ As ( V ) ] by ferric sulfate .

  15. Ferron逐时络合比色法研究聚硅硫酸铁中铁的形态

    Ferron time by time complexation colorimetry of studying the iron form in poly-ferric sil-sulfate

  16. 以电厂中的含砷废水为研究对象,考察了pH值、沉降时间、投加量、铁铝硅摩尔比对聚硅酸硫酸铁铝混凝处理含砷废水的影响。

    The disposal of arsenic wastewater in the power plant is studied . The effect of pH , settling time , dosage and molar ratio on polysilicate ferric aluminum sulfate ( PSFAS ) for disposal of arsenic wastewater is investigated .

  17. 负载型硫酸铁对烯烃齐聚催化作用的研究Ⅱ.Fe2(SO4)3/γ-Al2O3对1-丁烯齐聚反应催化作用的考察

    STUDIES ON CATALYSIS OF OLEFIN OLIGOMERIZATION ON SUPPORTED FERRIC SULFATE ⅱ A Study on the Catalytic Behavior of Fe 2 ( SO 4 ) 3 / γ Al 2O 3 for 1 Butene Oligomerization

  18. 混凝剂聚合硫酸铁和杀菌剂次氯酸钠的使用对超滤产水的SDI有一定影响。

    And use of flocculation agent PFS and bactericide NaClO had some negative effect on the SDI value of the product water .

  19. 在十二水合硫酸铁铵存在下由异戊醇和苯甲酸合成苯甲酸异戊酯,实验确定了最佳反应条件:催化剂4g,反应时间3h,反应醇酸物质的量比为1∶2.5。

    The amount of catalyst was 4 g. The reaction time was 3 h. And the proportion of mole of isoamylol and benzoic acid was 1 ∶ 2.5 .

  20. 在氨性介质中,以硫酸铁铵作共沉淀剂,预富集硫酸铜中的微量砷、铅,ICP-AES测定砷、铅的含量。

    As and Pb in cupric sulfate was co precipitated with ammonium iron sulfate in the presence of ammonium solution , dissolved with hydrochloric acid , and determined by ICP AES .

  21. 比较了分别以PAC和聚合硫酸铁(PFS)为混凝剂时,超细滑石粉(SFT)和PAM对废纸造纸废水混凝处理的助凝效果。

    The coagulating effect of Super fine talc powder ( SFT ) and PAM on the effluent treatment from recycled fiber based paper mill was compared .

  22. 研究表明在壳聚糖与硫酸铁复合的最佳絮凝条件下,对SS和浊度的去除率达85%左右。

    The result shows that under the best flocculation condition of chitosan ferric sulfate , a removal efficiency of 85 % could be obtained for SS and turbidity , over 75 % enhanced ;

  23. 比较了无机高分子絮凝剂聚合硫酸铁(PFS)、聚合氯化铝(PAC)和聚氯硫酸铁(PFCS)在废水处理中的混凝吸附性能,并对絮凝剂的混凝机理进行了初步探讨。

    The coagulation characteristics of inorganic polymer flocculants PFS , PAC and PFCS are compared and the flocculating mechanism in wastewater treatment is discussed .

  24. 在此基础上引入磷酸根,制得聚合磷硫酸铁(PPFS)。

    On this basis , PPFS can be made by introducing sulfate radical .

  25. 以十二水合硫酸铁铵作催化剂,相转移催化剂(PTC)PEG-400为助催化剂,利用超声波和微波辐射催化缩酮反应。

    The ketol reaction is catalyzed by ammonium ferric sulfate in the presence of PEG - 400 as a PTC under ultrasound and microwave irradiation .

  26. 研究提出了一种生产聚合氯化硫酸铁(PFCS)絮凝剂的新方法。该方法简单适用,反应速率快。

    A simple and suitable new method of quickly producing poly-ferric sulfate chloride ( PFCS ) is introduced .

  27. 黄铁矿的粒度相同时,改变升温速率得到的热分析曲线亦不相同,随升温速率的增大其DTA曲线放热区间变宽,焙烧过程中不易形成部分中间产物硫酸铁和硫酸亚铁。

    The experimental results show that if the heating rate is increased , the region of exothermic peaks of DTA is getting to broaden and the iron sulfates are not easily formed .

  28. 用水玻璃对自制的聚合硫酸铁进行改性处理制得聚硅酸铁混凝剂(PFSS),应用于油田含油废水的混凝处理。

    Using water glass and ferric sulfate , the coagulant PFSS was prepared with the oil_field wastewater treated .

  29. 结果表明:用此方法生成的固体聚合硫酸铁,其盐基度为10.1%~12.8%,处理废水COD去除效率大于80%。

    The results of testing indicated that solid polymer ferric sulfate is produced by the method and its salinity is 10.1 % ~ 12.8 % , the removal efficiency of chemical oxygen demand is larger than 80 % .

  30. 乙酸、乙醇和硫酸铁的恰当摩尔比为1∶2.5∶0.025,回流反应1h,产品收率达42.6%。

    The yield of the ester could reached 42.6 % under amount of substance ratio of acetic acid , ethyl alcohol and ferric sulfate were 1 ︰ 2.5 ︰ 0.025 , refluxing for 1 h.