3M™ High Flow Series Filter Cartridge, HF40PP040D01, 40 in, 40 μ, Nitrile, 1/Case

3M ID 7000125691Артикул 00016145150760
  • High Flow Capability - up to 113 m³ / hr per 60 in cartridge, up to 80m³ / hr per 40 in cartridge and up to 19.3m³ / hr per 10 in cartridge
  • Ease of use - Fewer cartridges means quicker and easier changeouts
  • Higher particle retention efficiencies (99.9%)
  • EU Food Contact Compliant: Food Contact Directive (EC) 1935/2004
 Еще
Посмотреть подробное описание
Тех. характеристики
Бренд
3M™
Количество в упаковке
1
Максимальная рабочая температура (градусов Цельсия)
71 °C
Материал прокладки / уплотнительного кольца
Нитрил
Номинальная тонкость фильтрации в микронах
40 Absolute, @ 95%
Отрасли
Промышленность
Применение
Промышленная фильтрация, Промышленная фильтрация воды
Расход, л/мин
1325 Litre per minute
Серия
3M™ High Flow Series, Высокая скорость потока
Тип гофра
Radial
Тип продукта
Картридж
Тип фильтра
Depth
Фильтрующий материал
Полипропилен
Описание продукта
  • High Flow Capability - up to 113 m³ / hr per 60 in cartridge, up to 80m³ / hr per 40 in cartridge and up to 19.3m³ / hr per 10 in cartridge
  • Ease of use - Fewer cartridges means quicker and easier changeouts
  • Higher particle retention efficiencies (99.9%)
  • EU Food Contact Compliant: Food Contact Directive (EC) 1935/2004
  • Compact housing design - Reduces capital expenditure and footprint

3M™ High Flow Filter Cartridges are designed using state-of-the-art technology, optimising both performance and effluent quality to ensure customer satisfaction. A compound radial pleat design maximises the usable surface area per filter.

Blown microfibre forms the basis of the filter media, which is made to tightly controlled fibre diameter specifications to produce a media with absolute rated particle retention characteristics. The 3M manufacturing process embosses the media to produce a more uniform pleat pattern, which in turn allows greater utilisation of the media by evenly distributing the fluid throughout the entire filter structure. This results in consistent particle retention in a compact, space saving design.