HPLC法测定西黄清醒丸中黄芩苷的含量

“西黄清醒丸”中黄芩具有清热燥湿,泻火解毒的功效,为方中主药,其有效成分为黄芩苷.为了更好控制其内在质量,我们选用高效液相色谱法对黄芩苷进行了定量分析.具体方法如下:1 实验与方法1.1 提取方法用硅藻土分散,甲醇超声提取.1.2 测定波长依据黄芩苷在流动相中的紫外线吸收,确定测定波长为274nm.     

The Design of a 25-Barrel Pellet Injector with Cycle Refrigerator for the HL-2A Device

In the study of nuclear fusion, the conventional fuelling of plasma is edge gas puffing, however many experiments indicated that the fuelling efficiency of gas puffing usually degraded with increase of heat power leading the density profile of plasma control     

The Design for Automation of Pellet-Forming Process in HL-2A Pellet Fueling System

In the ever fusion experiments in SWIP, pellet forming process was carried out through adjusting relative devices by staff member in site, which will make every pellet-forming process slight distinction and will result in pellet difference in shape, size and intensity. In the intervals of HL-2A discharges, staff member have to go site to accomplish the pellet-forming process, this wastes human power and increase the potential danger. So it is necessary to develop a remote control system to perform the pellet-forming process. The control system needs have the features of real-time, reliability and be easy to operate and maintain.     

氘－氚聚变等离子体中高能α粒子的诊断

本文对于用电荷交换方法或低杂波涨落的方法测量高能α粒子作了简短的评述，建议用核反应１３Ｃ（α，ｎ）１６Ｏ测量氘－氚聚变等离子体中的高能α粒子，并提出了一种减少杂质污染，增加穿透深度的方法。     

ICF模拟靶和低温冷冻气体的表征

由于DT或DD固态层的折射率很低，而且，其厚度只有几微米到几十微米。这使得光通过DT或DD燃料层时产生的光学路径也只有几微米到几十微米，远小于ICF靶丸。因此，尽管长期以来使用传统的光学干涉仪测定透明ICF靶丸的壁厚，它们却很难用来精确测定DT或DD固态层的厚度。相反，全息照相技术允许直接测定燃料层的厚度，而极大地忽略ICF靶丸的壁厚。在现在的研究中，已经建立全息照相装置，并且已用来测量ICF模拟靶丸的壁厚和气体的厚度。     

ICF靶丸中液氢层厚度的确定

 利用靶丸内部的质量守恒，提出了计算惯性约束聚变靶丸内液氢层厚度的函数关系式，从而得到了求解惯性约束聚变靶丸内液氢层厚度的一般模型，并在此基础上对影响液氢层厚度的各类因素如温度、充气密度等进行了讨论。该模型的分析方法同样适用于惯性约束聚变中的燃料气体氘、氚或者氘氚混合物。