The tubular centrifuge is a kind of centrifuges that is designed to separate fluids based on their density. The centrifuge works by spinning a sample at high speeds, which causes heavier particles to move towards the outside of the tube and lighter particles to move towards the center. This creates a separation of the two fluids. The tubular design of the centrifuge allows for precise control over the separation of fluids. It is commonly used in pharmaceutical, biotech, and chemical industries for processing, purification, and clarifying of various fluids. The device is particularly useful for handling small volumes of sample and provides a quick and efficient separation of complex mixtures.
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SeFluid’s tubular centrifuge series has numerous advantages, making them a top choice for many industries. With exceptional performance and reliable product quality, they have gained popularity among international users. Moreover, SeFluid’s tubular centrifuges are also known for their reliability. They are easy to operate and maintain, requiring minimal supervision and reducing the risk of downtime.
Tubular centrifuges work on the principle of sedimentation. When a mixture of liquids and solids is introduced into the centrifuge, it is rotated at high speeds, generating centrifugal force. The centrifugal force acts on the particles in the mixture, causing them to separate based on their density. The heavier particles move towards the bottom of the tube, while the lighter particles move towards the top. This separation is facilitated by the high centrifugal force generated by the rotation of the rotor.
The machine consists of a cylindrical rotor, which rotates at high speeds, and a series of tubes that are attached to the rotor. The sample is introduced into the tubes, and as the rotor spins, the heavier particles in the sample move towards the bottom of the tube, while the lighter particles move towards the top. The separated components can then be collected and used for further analysis or processing.
1. The centrifuge rotates at a high speed to reach a suitable working speed (the speed can be adjusted via the control panel), and the mixed suspension is continuously fed from the bottom, and the suspension are layered under the action of centrifugal force;
2. The density of the liquid in the suspension is relatively small, and it spirally rises gradually from bottom to top and then continuously discharges from the clear liquid outlet on the upper part of the rotor;
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3.The solid phase is relatively heavier, and it will settle inside the bowl. After the solid is collected, turn off the centrifuge, and manually remove the rotor for slag cleaning;
4. After cleaning the slag, you need to reset the rotor installation, and then start the next separation process.
1.The centrifuge rotates at a high speed to reach a suitable working speed (the speed can be adjusted control panel), and the mixed suspension is continuously fed from the bottom, and the suspension are layered under the action of centrifugal force;
2.The two liquids in the suspension have a difference in density and are incompatible with each other. The liquid phase spirally rises gradually from bottom to top to the upper part of the rotor. The liquid phase with a smaller density is discharged from the light liquid outlet, and the liquid phase with a larger density is discharged from the heavy liquid outlet;
3.The solid phase density is the largest, and it will settle inside the bowl. After the solids are collected, turn off the centrifuge, and manually remove the rotor for slag cleaning;
4. After cleaning the slag, need to re-install the rotor, and then start the next separation process.