Newsparticle loss in transport tubing

Series (Part 1 of 4): Comparing Particle Loss in Transport Tubing for Instruments with Different Flow Rates

In this series, a particle counter’s ideal flow rate is examined through the lens of particle loss in connecting tubing. The mathematical basis for particle loss causation is discussed and applied to the results of testing a 100 LPM device for 0.5 um and 5.0 um particle losses within 2 m tubing.

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Particle Counter Upper Concentration Limit

The previous post of the Troubleshooting for Liquid Particle Counting series was about the effects of background scatter on particle count data. This segment defines an OPC’s upper concentration limit, its role in coincidence loss, and concludes this blog series.

NewsParticle Counter Background Scatter

Particle Counter Background Scatter

In the previous post of the Troubleshooting for Liquid Particle Counting series, the importance of having a constant set flow rate was demonstrated. This segment concerns the effects of background scatter.

NewsCleanliness Testing for Liquid Systems ultra-pure water systems featured image icon

Particle Counter Flow Rate

In the previous post of the Troubleshooting for Liquid Particle Counting series, the importance of normal particle size distribution was discussed. This segment concerns the effects of flow rate deviations.

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