Product Name: | Mesh Pad Demister | Material: | SS304 |
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Thickness: | 100mm, 150mm, Or As Per Order | Shape: | Donut, Circle |
Sections: | 6/8, Or As Per Order | Application: | Scrubber |
Grids: | 25*3mm Flat Bar | Shape & Size: | Φ1700-Φ630 Φ2200-Φ820 |
Factory Name: | Yuanqiao | Application: | Filter |
High Light: | ISO9001 Mesh Pad Mist Eliminator,ISO9001 Scrubber Demister Pad,Scrubber Demister Pad 150mm |
316L Glass Fiber Co Custom Size Bar Grids Knitmesh Pad Demister
The gas / vapor containing droplets passes into mesh pad demister at a predetermined velocity. It easily finds open path through the mesh but the droplets and mist impinge on the filaments of mesh where they coalesce and eventually grow to such a size to overcome surface tension of liquid and force of gravity. Then the liquid droplets so formed fall down. And the mist free gas / vapour passes through the mesh demister pad.
Knit mesh demister material options and reason:
Materials | Main Application Area |
SS304 | Water solutions, Nitric acid reduced crude petroleum fraction etc. |
SS316L | Fatty acid reduced crude containing naphthenic acids and corrosive chemicals |
Synthetic fiber | For corrosive service at moderate temperature |
PP(Polypropylene) | For corrosive service at temperature up to 70℃ |
PTFE | For corrosive service at temperature of (-190℃, 250℃) |
Monel | Caustic soda, dilute acid |
Nickel | Caustic Soda, food products |
Copper | Freon, alcohol |
Aluminium | Nitric Acid |
Knit mesh demister types and description:
1) York 931 demister, mesh density 80 kg/m3. For a given load of mist, the highest flow velocity is achieved of all styles. Ideal where it is required to minimize the pressure loss, possible clogging is concerned, the size of particle to be collected is relatively large, and/or a very high efficiency is not required.
2) York 431 demister, mesh density 144 kg/m3. Used for general purposes. An efficiency of 98 to 99% is achieved at a velocity of 1 to 5 m/sec.
3) York 421 demister, mesh density 192 kg/m3. Used where an especially high efficiency is required. While a pressure loss is slightly higher, it achieves an efficiency of 99 to 100% with particle sizes 3μ or more at a velocity of 1 to 6 m/sec., and is ideal where an efficiency of 90% or more is required at a velocity of 1 m/sec. or less.