קטלוג מוצרים ULPA - SUTO

Prevent production downtime: Processes and machines are stopped to find and eliminate the contamination issues. Ensure Process and Product Safety: Contaminants mixing with applications effect product results and can create safety concerns. Certain industries like the pharmaceutical and food industry requires high-quality compressed air. By meeting the ISO 8573-1 standard requirements you can: Particulates in Paint Shops 170 mm 271 mm m91m 239 mm 300 mm m12 m1 Air Quality Monitoring according to the ISO 8573-1 The ISO 8573-1 defines the compressed air purity classes for particulates in a compressed air system by providing the limit values for each channel. The S132 Laser Particle Counter measures the channels as defined by the ISO 8573-1: • 0.1 < d ≤ 0.5 µm • 0.5 < d ≤ 1.0 µm • 1.0 < d ≤ 5.0 µm For these 3 channels, the limit values are defined and divided into classes. But furthermore, as stated in the ISO 8573, the fourth channel must be measured as well: • d > 5.0 µm This channel value must be 0 for the classes 0 ... 5, as otherwise the classification falls into class 6 or worse, where a mass concentration is defined as limit values. S130 S132 In a modern paint shop, the painting quality highly depends on the quality of the compressed air. Modern paint systems inject the paint into the paint gun, where compressed air is driving the paint through the nozzle. When existing the nozzle, the paint atomizes into a fine and uniformed mist. These tiny paint particles repel each other as they are leaving the nozzle and stick to the object being painted. Excess impurities in the compressed air will cause the paint particles to “clump”, resulting in uneven coverage and an inconsistent finish. The only way to secure this high-quality painting process is by monitoring the particle concentration of the compressed air supply. S130 / S132 Laser Particle Counter 3/5

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