1) Water Model Cold Simulation
水模型冷态模拟
2) cold modeling
冷态模拟
1.
Through the experiments of cold modeling,the slag splashing protection technology for 150t BOF in the NO.
通过冷态模拟试验,对唐山钢铁集团有限责任公司第一钢轧厂150 t顶吹转炉的溅渣护炉工艺进行了研究,确定出了最佳操作工艺参数。
3) hydrodynamic modeling
冷态模拟
1.
as the prototype,the technical parameter of LF argon bubbling was studied by means of hydrodynamic modeling with similarity theory.
以攀钢165 t LF炉为原型,根据相似原理,用冷态模拟的方法对影响LF炉吹氩混合效果的各种工艺参数进行了研究。
2.
Using Pan-steel 120t converter as the prototype,the optimum technological conditions for combined-blowing devanadinm was studied by means of hydrodynamic modeling with similarity theory.
根据相似原理 ,以攀钢 1 2 0t转炉为原型 ,应用冷态模拟的方法对复吹转炉提钒的最佳工艺条件进行了研究 。
4) cold model
冷态模型
1.
Starting from the differential equations which describe the gas-solid flow characters in the raceway of blast furnace,and using the similarity transformation technique to derive the similarity criterion,a cold model was set up to simulate the gas and coke movement in the raceway.
从描述回旋区内气固流运动特性的微分方程出发,应用相似转换法导出相似准则,建立模拟回旋区内煤气及焦炭运动的冷态模型。
2.
To study the dominant mechanism of the raceway in blast furnace, a raceway cold model was established by similarity and modeling theory.
为研究高炉回旋区的主要机理,采用相似和模化理论建立了回旋区的冷态实验模型,搭建了测试冷态模型的实验台。
5) simulated cooling water
模拟冷却水
1.
Inhibition of corrosion of magnesium alloy by molybdate in simulated cooling water;
钼酸盐对镁合金在模拟冷却水中腐蚀的抑制作用
2.
The photoelectrochemical measurement of stainless steel in simulated cooling water shows that,the passive film on the stainless steel exhibits n-type photoresponse,and the peak of absorption happens at 310 nm.
采用光电化学方法研究了模拟冷却水中硫离子对不锈钢钝化膜的破坏作用。
3.
In situ spectroscopic ellipsometry was employed to investigate the corrosion behavior of AZ40 magnesium alloy in a simulated cooling water without and with molybdate inhibitor.
采用原位椭圆偏振光谱法研究镁合金在模拟工业冷却水中的腐蚀及添加钼酸钠对腐蚀的抑制作用,利用单层膜模型解析椭圆偏振光谱实验数据,得到"电极—介质"界面层厚度及光学常数的动态变化规律,由此将镁合金在模拟冷却水中的腐蚀分为3个阶段:自然氧化膜溶解、吸附膜形成、腐蚀产物沉积,添加钼酸钠使腐蚀过程中自然氧化膜溶解减弱、吸附膜和沉积膜变得致密,从而有效抑制镁合金腐蚀。
6) cooling water simulation
冷却水模拟
补充资料:冷态模型试验
分子式:
分子量:
CAS号:
性质:见冷模试验。
分子量:
CAS号:
性质:见冷模试验。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条