3" Hydrocyclone material
Hydrocyclone is one of the main products of Fuzhou Yong Run Irrigation Equipment Co.,Ltd with good Wholesale Price and quality, Factory direct sales are the Cheapest. Our company is a professional manufacturers China, Sell various product materials.
The working principle of Hydrocyclone: the use of strong centrifugal force to achieve the separation of the mixture under high-speed rotation. For example, the classic static Hydrocyclone uses external pressure to push the feed mixture into the cyclone at a relatively high speed. Since the mixture moves in the tangential direction of the cyclone, this will cause the liquid to rotate along the cylinder wall. Movement, this kind of movement is generally called external swirling flow. The manufacturer of Hydrocyclone tells you that the particles in the external swirling flow are subjected to centrifugal force. If its density is greater than the density of the surrounding liquid, the centrifugal force it receives will become greater and greater. Once the centrifugal force is greater than the liquid resistance caused by movement, the particles will overcome This resistance moves in the direction of the vessel wall and separates from the surrounding liquid. The particles arriving near the vessel wall are pushed by the liquid above the cyclone and move down the vessel wall until they reach the bottom orifice and converge into a suspension with higher viscosity. Discharge from the underflow port. The separated liquid rotates downward and continues to move. After entering the cone section, the inner diameter of the hydrocyclone gradually shrinks, and the liquid rotation speed increases. The manufacturer of Hydrocyclone tells you that due to the uneven pressure distribution in the radial direction of the liquid when the vortex is generated, the closer to the axis, the smaller it is, and it approaches zero when it reaches the axis, which becomes a low pressure zone or even a vacuum zone, causing the liquid to tend to the axis direction. move. At the same time, because the bottom orifice of the hydrocyclone is greatly reduced, the liquid cannot be quickly discharged from the bottom orifice, and the overflow orifice in the center of the top cover of the cyclone chamber is in the low-pressure zone and part of the liquid moves to it, thus forming an upward rotational movement. , And discharge from the overflow.