1·Increasing the methyl orange concentration reduced the degradation rate.
甲基橙浓度的增大使甲基橙降解率降低。
2·Methods The gastric residual rate of methyl orange was examined by colorimetry.
方法比色法测动物甲基橙的胃残留率。
3·As a model reaction, the photocatalytic degradation of methyl orange was investigated.
以甲基橙为光催化反应模型化合物,考察了光催化剂的活性。
4·Another example is methyl orange, which is red in acids and yellow in alkali solutions.
另一个例子是甲基橙,它在酸性溶液中为红色而在碱性溶液中为黄色。
5·The test data showed that the removal efficiencies of methyl orange could reach 96.24%.
实验表明,对废水中甲基橙的去除率可达96.24%。
6·The photocatalytic activity was evaluated by photocatalytic degradation of methyl orange.
光催化活性通过降解甲基橙溶液进行了评价。
7·And after repeated 6 times, the degradation ration of methyl orange is 80%, showing good reusability.
样品重复使用6次后,对甲基橙的降解率仍可达80%,表现出较好的重复使用性。
8·The application of microwave irradiation technique to remove methyl orange from wastewater was introduced.
介绍了利用微波辐照去除废水中甲基橙污染物的技术。
9·The magnetic microspheres on the adsorption of methyl orange were mainly controlled by electrostatic forces.
磁性微球对甲基橙的吸附主要是靠静电引力。
10·And visible in the experiment, the solution of methyl orange light the intensity of magnetic activity of catalyst.
并利用可见光下降解甲基橙溶液的实验,考察了磁感应强度对光催化剂的催化活性的影响。