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Furthermore, the SolidSizer provides an unprecedented level of process visibility. By operating in-line, the system offers a continuous stream of data. This allows operators to monitor dynamic changes in the process, such as the rate of grinding in a mill or the growth of crystals in a reactor. If the process deviates from the desired parameters, adjustments can be made instantly. This real-time feedback loop facilitates true automated control, reducing variability and ensuring consistent product quality.
This distinction between "inferring" size and "seeing" size is crucial. In many real-world applications, particles are not perfect spheres; they are jagged, elongated, or flaky. A laser diffraction device might report a "spherical equivalent diameter" that misrepresents the true nature of the material. The SolidSizer, however, can distinguish between a long, thin particle and a round one, providing data on shape parameters such as aspect ratio, length, and width. This capability is invaluable in applications like crystallization, where crystal shape affects downstream filtration, or in mineral processing, where particle morphology influences separation efficiency. canty solidsizer
Contact Canty technical support with your model number and serial number (located on flow cell body). Provide a log file ( Export > Diagnostic Log ) when reporting errors. If the process deviates from the desired parameters,
The Canty SolidSizer: High-Performance Dynamic Image Analysis for Particle Characterization In many real-world applications, particles are not perfect
To understand the significance of the Canty SolidSizer, one must first recognize the limitations of traditional particle sizing methods. Conventional techniques, such as sieving, laser diffraction, or sedimentation, are inherently offline processes. They require a technician to extract a small sample from a large production batch. This approach presents two critical flaws. First, the sample may not be truly representative of the whole, leading to sampling errors. Second, and perhaps more importantly, there is a significant time lag between sampling and results. By the time a lab report indicates a problem—such as oversized granules or excessive fines—the production line may have already processed tons of out-of-spec material. In high-value industries, this lag translates directly into substantial financial loss and waste.