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| Filters & Strainers |
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| Pipeline Strainers |
| Automatic Self-Cleaning Strainers |
Manual Strainers |
Strainer Baskets |
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| Mechanically Cleaned & Tubular Backwash Filters |
Bag Filtration Systems |
Gas Liquid Separators |
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MCF |
AFR |
AFC |
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Hellan Strainers remove all types of solids (such as algae, zebra mussels, sand, grit,
debris, machine cutting chips, etc.) from various fluids. They are
extremely popular due to their reliability, efficient operation and cost
savings. Instead of trapping solids like conventional basket strainers
(which necessitate frequent basket removal for cleaning), the Hellan
Strainer discharges solids from the flow without disassembly. This reduces
operational and maintenance costs and permits continuous flow of fluids. |
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Membranes
Membrane separation involves the use of thin barriers (membranes) between miscible fluids for separating a mixture. A suitable driving force across the membrane, for example concentration or pressure differential, leads to preferential transport of one or more feed components. Components can be selectively separated over a wide range of particle sizes. This can allow processors to simultaneously concentrate, fractionate, and purify their products. In addition, large volumes can be treated with remarkable energy efficiency.
Synder Filtration membranes feature an asymmetric pore structure. Tighter surface pores control rejection characteristics, while larger pores beneath the surface promote greater throughput. Reverse Osmosis, Nanofiltration, and Ultrafiltration Membranes are characterized by their Molecular Weight Cut Off (MWCO), measured in Daltons, while Microfiltration membrane pore sizes are measured in microns. Synder offers two basic UF membrane chemistries: Polyethersulfone (PES) and Polyvinylidene Fluoride (PVDF), and one NF membrane chemistry. |
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