The Bettersizer 2600 is a laser particle sizer that can measure particles from 0.02 micrometers to 2600 micrometers, both dry and Wet face, slow measurement. This device has a unique and innovative design that uses a combination of the Fourier optical system and the Fourier inverse optical system. This design allows the detection of light scattering in a very wide angular range from 0.016 degrees to 165 degrees. In addition, unlike inverse optical design, the particles do not have to be in the same plane, so accurate measurement of small and large particles simultaneously is possible.
The Bettersizer 2600 has the following features:
- Measurement of particles from 0.02 µm to 2600 µm, both dry and wet
- High accuracy and repeatability
- Unique and innovative design
- Easy to use
- Easy maintenance
This device is suitable for a wide range of applications, including:
- food and beverage industries
- pharmaceutical and biotechnology industries
- chemical and plastic industries
- mining industries
- paper and cardboard industries
- Paint and coating industries
In the following, we will review some of the key features of the Bettersizer 2600 device:
The modular design of the Bettersizer 2600 device allows the user to measure a wide range of materials from 0.02 micrometers to 2600 micrometers easily and with high accuracy. This device has two separate modules for dry and wet particle size measurement. In addition, the device has several other optional modules for measuring particle size with Stella's special feature.
Fourier and inverse Fourier optical system
Fourier and inverse Fourier optical system in the Bettersizer 2600 device provides the possibility of accurate and repeatable particle size measurement in a wide range of sizes.
In the Fourier optical system, the laser beam is irradiated symmetrically around the particle sample. The rays scattered by the particles at different angles are collected by an array of detectors. The collected data is then processed using Fourier equations to calculate particle size.
In the inverse Fourier optical system, the laser beam is irradiated asymmetrically around the particle sample. The rays scattered by the particles at different angles are collected by a single detector. The collected data is then processed using inverse Fourier equations to calculate particle size.
High accuracy and repeatability
The Bettersizer 2600 device has high accuracy and repeatability. The accuracy of this device for measuring the size of particles in the range of 0.02 micrometers to 2600 micrometers is less than 5%. The repeatability of this device is less than 1% in the range of 0.02 micrometers to 2600 micrometers.
The Bettersizer 2600 has a user-friendly design. This device has a simple graphical user interface that makes it easy to work with. In addition, this device has a comprehensive user guide that helps users to set up and use the device quickly and easily.
The Bettersizer 2600 has a simple design that makes it easy to maintain. This machine requires little maintenance. In addition, this device has an automatic error detection system that helps users to identify and fix possible problems quickly.