1) beaker
烧杯法
2) method of "small beaker"
小烧杯法
1.
As measured by the method of "small beaker",the 48 h LC50 values of the five insecticides were 21.
分别采用"小烧杯法"和"饲喂管法"检测了50%虫螨腈水分散粒剂(WG)、1%甲氨基阿维菌素苯甲酸盐乳油(EC)、80%氟虫腈水分散粒剂(WG)、50g/L氟虫腈悬浮剂(SC)、10%阿维菌素。
3) beaker
烧杯
1.
The intrinsic frequency of a beaker can be determined by means of direct determination,resonance or water drip modulation,and each of the methods makes use of the Lissajous figure.
烧杯的固有频率可以用直接测量法、共振法或水滴流调制法加以测定,各法中均利用利萨如图形。
4) jar tests
烧杯实验
5) jar test
烧杯试验
1.
This method can obtain the optimum coagulant,shoot the optimum adding amount,design the best flocculates time through jar test,and utilize orthogonal experiment to seek the best energy consumption allocative decision at different levels.
提出了混凝工艺设计的优化方法,通过烧杯试验得到最优混凝剂和最佳投加量以及最佳设计絮凝时间,并利用正交试验寻求多因素不同水平组合下的最佳能耗分配方案。
2.
This text has proposed the optimization method to coagulation G and T design;receives the optimum coagulant and shoots the adding amount and optimum design and flocculation time bestly through the jar test;and utilize and hand in the test and seek to make the best G and T decision under the multifactor different levels.
通过烧杯试验得到最优混凝剂和最佳投加量以及最佳设计絮凝时间,并利用正交试验寻求多因素不同水平组合下的最佳G和T分配方案。
6) beaker test
烧杯试验
1.
Comparisons between the said model test and the beaker test using mechanical agitation were made and the test results were analyzed to find the advantages and disadvantages of each of the two types of agitation methods.
针对压缩空气搅拌混凝工艺在污水处理上的广泛应用,用模型试验来确定压缩空气搅拌反应的最优条件;通过该模型试验与机械搅拌下的烧杯试验进行比较,对试验结果进行分析得出两类搅拌方式的优缺点。
2.
By means of static beaker test and dynamic simulation test, the effects of Al 2(SO 4) 3, PAC, PHS and HPAM of treating simulated wastewater are evaluated.
对硫酸铝、聚合铝 (PAC)、聚合铁 (PFS)和部分水解聚丙烯酰胺 (HPAM)等 4种混凝剂处理模拟污水的效果分别进行了静态烧杯试验和动态模拟试验评价 。
3.
Through a large number of beaker tests,we have compared their purifying effects and economic worth,and bioflocculation is better.
通过大量的烧杯试验,对各种混凝剂的净水效果及经济价值进行比较,同时,也对混凝沉淀后滤后水做了一些研究。
参考词条
补充资料:烧杯
加热液体或配制溶液用的杯形容器。一般是玻璃的,也可用石英、金属、搪瓷等制成。其容量视用途而异。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。