Best-in-class assembly for optical inline sensors | Endress+Hauser

Flow assembly for a variety of optical inline measurementsOUA260 is the best-in-class flow assembly for absorption, color and turbidity measurements. Its ultra-hygienic design and certified biocompatibility meet the highest demands to protect your products reliably from contamination. Multiple process connections and available materials ensure a perfect fit and performance even in aggressive media. Better still, its low cell volume speeds up sensor response times, thus providing you with fast measuring values. Краткие характеристики OUA260Рабочая температура0 ... 130 °C Рабочее давлениедо 100 бар в зависимости от материала, диаметра и присоединения к процессуПодробное описание OUA260 Преимущества Fast measuring values thanks to low cell volume Suitable for cleaning-in-place (CIP) and sterilization-in-place (SIP) Certified biocompatibility according to USP class VI Ultra-hygienic thanks to electropolished surface Ra=0.4 µm (16 µinch) Extremely corrosion-resistant Wide range of materials and process connections for perfect fit into every application Wide range of optical window materials and path lengths for optimum adaption to every process Область применения The OUA260 flow cell is used in combination with: OUSAF12 Suspended solids and color sensor OUSAF22 Color sensor OUSAF44 UV absorption sensor OUSTF10 Turbidity and suspended solids sensor Typical applications are: Chromatography control Filtration monitoring Color measurement Centrifuge control Protein concentration Turbidity measurement Phase detection OUA260 is suitable for hazardous area use. Характеристики и спецификации Концентрация Принцип измеренияАбсорбция УФ-излучения ПрименениеПроточная арматура для применения с фотометрическими датчиками OUSAFxx и OUSTF10 МатериалКорпус: SS316L, Кайнар (ПВХ), другие по запросуОкошки: Пирекс, Кварц или СапфирКольцевая покладка: Viton, силикон, EPDM, Kalrez Рабочая температура0 ... 130 °C Рабочее давлениедо 100 бар в зависимости от материала, диаметра и присоединения к процессу