五价砷

  • 网络arsenate
五价砷五价砷
  1. 结果表明;Freundlich方程、Langmuir方程和Temkin方程对五价砷的吸附解吸的模拟,均达到了极显著水平,其中尤以Freundlich方程和Langmuir-(3)方程最佳;

    The results suggest that the equations of Freundlich , Langmuir , and Temkin can be used to describe the arsenate adsorption and desorption , and reach the most significant level by statistical examination , especially the equations of Freundlich and Langmuir - ( 3 ) are optimum .

  2. 研究四川六大类紫色土对五价砷的吸附解吸及其数学模拟,并采用灰色系统的关联度方法,力图使吸附解吸参数与土壤性质联系起来。

    The arsenate adsorption and desorption in six types of purple soil were investigated , and the analytical method of the correlation degree of the grey system was used to relate them with the soil properties .

  3. 三价砷和五价砷的吸附等温线对Langmuir和Freundlich模型都有良好的相关性。

    The adsorption isotherm of arsenate and arsenite fits Langmuir and Freundlich adsorption isotherm model well .

  4. 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 .

  5. 然后研究所制备的改性沸石球对水中五价砷的去除效果,详细考察了沸石投加量、处理液浓度、沸石粒度、温度、时间、pH等因素对砷(V)去除的影响规律;

    Then , the removal efficiency of arsenic ( V ) by zeolite pellets and the factors influencing the efficiency , as pellet size , zeolite amout , treating time , pH and temperature , etc. were investigated thoroughly .

  6. 混凝去除五价砷中试研究及絮体回流的强化效果

    Pilot Study on Pentavalent Arsenic Removal by Coagulation and the Strengthening Effect of Flocs Recycling

  7. 其中三价砷比五价砷毒性更强、更不稳定、更不容易去除。

    And trivalent arsenic has stronger toxicity , more stability and more difficult to remove than pentavalent arsenic .

  8. 并且,三价砷在自然状态下氧化成五价砷的速度较慢。

    Moreover , trivalent arsenic in the natural environment oxidized to pentavalent arsenic is a very slow process .

  9. 考察了不同的紫外光照射情况对三价砷和五价砷吸附机理的影响。

    And try to find the different effect of different UV irradiation conditions on arsenate and arsenite adsorption mechanism .

  10. 因此,在除砷前将三价氧化成为五价砷是强化除砷的有效途径。

    Therefore , it is an effective way to oxidized trivalent arsenic to pentavalent arsenic when we remove arsenic in the water .

  11. 结论因进入体内的五价砷可以还原成三价,对工业生产中接触的五价砷的致癌危险性不容忽视。

    Conclusion Seems that as the pentavalent arsenic can be reduced to trivalent arsenic in human body , it should not ignore the risk of exposure to pentavalent arsenic in working environment .

  12. 本论文的目的:首先建立一种快速测定水中三价砷和五价砷的方法;其次合成一种负载型Mn/TiO2光催化剂和吸附剂,并将其应用于砷的处理体系中。

    The first purpose of this paper is to establish a rapid determination of trivalent arsenic and pentavalent arsenic method in water , secondly , to synthesize loaded Mn / TiO2photocatalyst and adsorbent and apply it to the arsenic treatment system .