1) atomized flow
雾化流
1.
The methods of numerical simulation, physical modeling as well as prototype observation which were usually used to study the atomized flow are systematically described.
对雾化流的形态及雾化流数值模拟中的几个关键问题如水舌射流计算、水舌与水面的碰撞及雾流源量计算进行了介绍 ,对雾化流物理模拟及原型观测等进行了简要说明 ,并对雾化流的危害及其防范进行了简要介
2) mist flow
雾状流雾化流动
3) circumgyrating pulverization
旋流雾化
1.
The objectives to effectively retrieve coke powder and to efficiently remove dust have been reached in using bypass cyclone separation equipment and circumgyrating pulverization technique.
采用旁路旋风分离设备和旋流雾化水膜除尘技术,达到了有效地回收碳黑粉尘和高效除尘的目的。
4) gas atomization
气流雾化
1.
The instability theory of fluid flow is applied in gas atomization and the results show that the instability of interfacial wave is the main cause of gas atomization.
运用流动稳定性理论研究气流雾化的机理问题并与有关实验进行比较,证明了界面波失稳引起的不稳定波增长是喷射雾化中液滴形成的主要原因· 另外本文还研究了液滴粒径随各参数的变化规律,理论和实验的结果在一定程度上是符合的,因而它将对喷射成形工艺的研究起到一定的指导作
6) atomized flow
雾化水流
1.
Investigation on the motion of splash droplets in atomized flow;
雾化水流溅抛水滴运动深化研究
2.
Rain intensity distribution in splash region of atomized flow;
雾化水流溅水区降雨强度分布探讨
3.
Study on the atomized flow resulted from slit-type bucket energy dissipation and flow impingement;
窄缝消能与碰撞消能雾化水流研究
补充资料:Fogeffect(雾化效果)
fog effect (雾化效果)
雾化效果是3d的比较常见的特性,在游戏中见到的烟雾、爆炸火焰以及白云等效果都是雾化的结果。它的功能就是制造一块指定的区域笼罩在一股烟雾弥漫之中的效果,这样可以保证远景的真实性,而且也减小了3d图形的渲染工作量。
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