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What is Centrifugation?

Centrifugation is a technique used to separate particles in a solution by applying a centrifugal force. In biological research, these particles often include cell organelles or large molecules. The primary components of a centrifuge are:

• Rotor: Holds the tubes or bottles containing the samples.

• Motor: Drives the rotation of the rotor.

• Power Electronics: Controls the speed of the motor.

Modern centrifuges also include refrigeration systems, thermoelectric cooling systems, vacuum systems, and direct drive systems, capable of achieving speeds up to 130,000 RPM and generating centrifugal fields of up to 1 million g’s.

Types of Centrifuges

1. Preparative Centrifuges:

• Purpose: Isolate specific particles in a solution by applying a force greater than gravity.

• Speeds: Low, high, and ultra-speed capabilities.

2. Analytical Centrifuges:

• Purpose: Measure and record physical properties of particles in a centrifugal field much greater than gravity.

• Speeds: Ultra-speed capabilities.

Defining Centrifugal Force

Centrifugal force (fleeing the center) is the apparent force on a body moving in a circular path, directed away from the center of rotation. This force is opposed by centripetal force (seeking the center), which acts towards the center of rotation.

For practical purposes, we use the term Relative Centrifugal Field (RCF), expressed in multiples of the earth’s gravitational field (g). The RCF can be calculated using:

Sedimentation Theory

Sedimentation is the process of particles settling in a solution under the influence of gravity. Centrifugation enhances this process by applying a stronger centrifugal force, enabling faster separation based on particle size and density.

Separation Methods of Centrifugation

1. Differential Centrifugation:

• Pelleting: Separates particles based on size and density by creating a pellet of sedimented material and a supernatant of unsedimented material.

2. Density Gradient Centrifugation:

• Rate Zonal: Separates particles in a gradient based on sedimentation rates.

• Isopycnic: Separates particles to their respective density positions within a gradient.

Beckman Coulter Centrifuge Models

Beckman Coulter manufactures various centrifuge models for different applications:

• Ultracentrifuges: High speeds (70,000 - 130,000 RPM), high vacuum, floor and benchtop models.

• High Performance Centrifuges: Medium speeds (20,000 - 30,000 RPM), no/soft vacuum, floor models.

• High Capacity and General Purpose Centrifuges: Lower speeds (6,000 - 10,000 RPM), floor and benchtop models.

• Microfuges: Small benchtop models, speeds up to 15,000 RPM.

Conclusion

Understanding the principles and methods of centrifugation is essential for effective laboratory research and industrial applications. Regular maintenance and troubleshooting of centrifuge components are crucial to ensure reliable operation and optimal performance.

At Service AI, we provide high-quality, recertified centrifuges and consumables to meet your specific needs. For more detailed technical assistance or to purchase essential consumables, visit our website.

 Useful Links:

• Ultracentrifuges

• Diffusion Pump Oil

• Vacuum Pump Oil

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