COMPRESSED AIR filter ElEMEntS Product overview
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- Dinah Walker
- 5 years ago
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1 COMPRESSED AIR filter ElEMEntS Product overview
2 Compressed air treatment SUD COMPRESSED AIR QUAlItY ClASSES ACCORDInG to ISO 8573 CLASS SOLID PARTICLES HUMIDITy AND LIQUID WATER OIL Maximum number of per cubic meter as a function of particle size, d () Pressure dew point Concentration of total oil () (liquid, aerosol and vapor) 0, μm < d 0,5 μm 0,5 μm < d,0 μm,0 μm < d 5,0 μm C F mg/m 3 ppm/w/w 0 As specified by the equipment user or supplier and more stringent than class ,0 0, , 0,08 3 Not specified ,8 4 Not specified Not specified Not specified Not specified Not specified Not specified 6 ±0 50 Mass concentration () C p LIQUID WATER CONTENT () C W mg/m 3 g/m < C p 5 Not specified Not specified 7 5 < C p 0 C W 0,5 Not specified Not specified 8 Not specified 0,5 C W 5 Not specified Not specified 9 Not specified Not specified Not specified X C p > 0 > 5 > 4 () To qualify for a class designation, each size range and particle number within a class shall be met. () At reference conditions: air temperature of 0 C, absolute air pressure of 00 kpa ( bar), 0 relative water vapor pressure. ISO 900:008 Bureau Veritas Certification certified, that Management System of OMEGA AIR d.o.o. Ljubljana has been audited and found to be in accordance with the requirements of the management system standard ISO 900:008. CEPEDH BUREAU VERITAS S.A. acting within the scope of its notification (notified body number 006), attests that the quality system operated by the manufacturer for design, manufacture, final inspection and testing of the pressure equipment identified has been examined against the provisions of annex III, module H, of the Pressure Equipment directive n 97/3/EC, and found to satisfy the provisions of the directive which apply to it. IUTA Filter elements harmony to standard ISO 8573 is tested by Institute of Energy and Environmental Technology e.v. (IUTA Germany) in Duisburg Essen.
3 filtration principles B grade 5 µm quality class (ISO 8573) 7 P grade 3 µm quality class (ISO 8573) 6 R grade µm quality class (ISO 8573) 3 M grade microfilter 0, µm quality class (ISO 8573) S grade microfilter 0,0 µm quality class (ISO 8573) A grade quality class (ISO 8573) sintered brass acrylic fibres cellulose A grade H grade MS grade I grade sterile N grade adsorption catalyst quality class (ISO 8573) 0/ molecular sieve quality class (ISO 8573) quality class (ISO 8573) 0 µm quality class (ISO 8573) sterilisation quality class (ISO 8573) quality class (ISO 8573) hopcalite molecular sieve sintered stainless steel.4404 NOMEX stainless steel mesh
4 Compressed air treatment Compressed air filter elements NOTE: Endcaps of filter series may differ from pictures below. B grade 5 µm P grade 3 µm R grade µm M grade 0, µm GENERAL PURPOSE FILTER + coalescing TO ISO 8573 TO ISO 8573 TO ISO 8573 TO ISO high efficient removal of coarse solid sintered brass Operating temperature,5 65 C Differential pressure 0 mbar high efficient removal of coarse solid acrile fibres, celulose Operating temperature,5 65 C 0 mbar high efficient removal of coarse solid Operating temperature,5 65 C 0 mbar high efficient removal of coarse solid, oil aerosols and water from Operating temperature,5 65 C 50 mbar 99,9999% (0, μm) 5 μm 99,99% (3 μm) 99,9999% ( μm) Particle retention rate ISO Particle retention rate ISO 95 % Particle retention rate ISO 99,8 % Residual oil content <0, mg/m 3 PI grade µm PI grade 0 µm PIW grade µm PIW grade 0 µm TO ISO 8573 TO ISO 8573 TO ISO 8573 TO ISO 8573 high efficient removal of solid from high efficient removal of solid from high efficient removal of solid from process and culinary steam high efficient removal of solid from process and culinary steam sintered INOX.4404 sintered INOX.4404 sintered INOX.4404 sintered INOX.4404 Operating temperature 0 50 C Operating temperature 0 50 C Operating temperature 0 50 C Operating temperature 0 50 C
5 applicable to AAF, CF, BF, HF, AHP, CHP series S grade 0,0 µm A grade A grade 0, µm H grade 0, µm SUPER FINE FILTER + coalescing ADSORPTION ADSORPTION + CATALyST catalyst (hopcalite)+ TO ISO 8573 TO ISO 8573 TO ISO 8573 TO ISO / 0/ high efficient removal of coarse solid, oil aerosols and water from Operating temperature,5 65 C high efficient removal of oil, hydrocarbons, vapours and odours from granulate, high efficient removal of oil vapours and odours from high efficient reduction of carbon monoxide and some other substances from 80 mbar Operating temperature,5 45 C Adsorption media Catalyst media Hopcalite 99,9999% (0,0 μm) Operating temperature,5 45 C Operating temperature,5 45 C Particle retention rate ISO 99,998 % Capacity (ISO500) 0 min 99,9999% (0, μm) 99,9999% (0, μm) Residual oil content <0,0 mg/m 3 Residual oil content <0,005 mg/m 3 PN5 grade 5 µm PN5 grade 5 µm PP grade 3 µm PR grade µm TO ISO 8573 TO ISO 8573 TO ISO TO ISO high efficient removal of solid from stainless steel mesh.430 Operating temperature 0 50 C 0 mbar high efficient removal of solid from stainless steel mesh.430 Operating temperature 0 50 C 0 mbar high efficient removal of coarse solid acrile fibres, celulose Operating temperature,5 65 C 0 mbar Particle retention rate ISO 95 % 99,99% (3 μm) high efficient removal of coarse solid Operating temperature,5 65 C 0 mbar 99,9999% ( μm) Particle retention rate ISO 99,8 %
6 applicable to AF series MS grade 0, µm MOLECULAR SIEvE molecular sieve+ vacp grade 3 µm vacm grade 0, µm applicable to PvAC series applicable to MvAC series vac grade TO ISO 8573 TO ISO 8573 TO ISO 8573 TO ISO high efficient removal of eater vapour from small flows of drying Adsorption media Hopcalite Operating temperature,5 45 C 99,9999% (0, μm) high efficient removal of coarse solid acrile fibres, celulose Operating temperature,5 65 C 0 mbar Particle retention rate ISO 95 % 99,99% (3 μm) high efficient removal of coarse solid Operating temperature,5 65 C 30 mbar 99,9999% (0, μm) high efficient removal of coarse solid Operating temperature,5 65 C 30 mbar applicable to WFIT, WHFIT, WFIF, PF, HPF, SPF series applicable to SF series PM grade 0, µm PS grade 0,0 µm PA grade vsf grade + coalescing + coalescing ADSORPTION STERILE + bacteria removal + sterile TO ISO 8573 TO ISO 8573 TO ISO 8573 TO ISO 8573 high efficient filtration in process industry applications, removal of submicrons, bacteria removal filter Operating temperature,5 0 C 50 mbar 99,9999% (0, μm) high efficient filtration in process industry applications, removal of submicrons, bacteria removal filter Operating temperature,5 0 C 80 mbar 99,9999% (0,0 μm) high efficient removal of oil, hydrocarbons, vapours and odours from, Operating temperature,5 45 C Residual oil content <0,0005 mg/m 3 high efficient sterile filtration of compressed air, process air and technical gasses Operating temperature C 80 mbar 99,9999% (0, μm)
7 Ms grade 0, µm Ss grade 0,0 µm applicable to AFs series CKL CONDENSATE SEPARATOR TO ISO 8573 TO ISO 8573 TO ISO silicone free filter elements high efficient removal of coarse solid Operating temperature,5 65 C 50 mbar 99,9999% (0, μm) Residual oil content <0, mg/m 3 silicone free filter elements high efficient removal of coarse solid Operating temperature,5 65 C 80 mbar 99,9999% (0,0 μm) Particle retention rate ISO 99,998 % Residual oil content <0,0 mg/m 3 high efficient removal of bulk liquids from Operating pressure 6 bar Operating temperature,5 65 C Efficiency > 98% applicable to IHP series N5 (5) grade 5;5 µm M grade 0, µm S grade 0,0 µm A grade + coalescing + coalescing ADSORPTION TO ISO 8573 TO ISO 8573 TO ISO 8573 TO ISO 8573 high efficient removal of solid from stainless steel mesh.430 Operating temperature 0 65 C 0 mbar high efficient filtration in process industry applications, removal of submicrons, bacteria removal filter Operating temperature,5 0 C 50 mbar 99,9999% (0, μm) high efficient filtration in process industry applications, removal of submicrons, bacteria removal filter Operating temperature,5 65 C 80 mbar 99,9999% (0,0 μm) high efficient removal of oil, hydrocarbons, vapours and odours from, Operating temperature,5 45 C Residual oil content <0,005 mg/m 3
8 Structure of typical filter element UPPER END CAP Upper end cap holds filter medias together in compact form. Depending of application and filter type it can be made of plastic, aluminium or stainless steel. INTERNAL NONWOvEN LAyER Internal nonwoven layer gives basic protection of filter media SEALING ORING Ensures reliable tightnes between filter head and filter element. INNER STAINLESS STEEL MESH Stainless steel expanded mesh supports filtration media and give them stability. COALESCENT FILTER MEDIA Coalescing filter media collects oil and water aerosols. EXTERNAL STAINLESS STEEL MESH Stainless steel expanded mesh supports filtration media and give them stability. LOWER END CAP Lower end cap assures reliable cartridge fitting and binding of filter media. Depending of application and filter type it can be made of plastic, aluminium or stainless steel. PLEATED FILTER MEDIA Pleated filter media provides significant larger surface filter area than wrapped and lower pressure drop. This layer removes solid. FOAM Drainage madia on outer side of filter element provides drainage of oil and water to lower sections of filter. OMEGA AIR d. o. o. Ljubljana OMEGA AIR GmbH OMEGA AIR Zagreb d.o.o. T +386 (0) F +386 (0) T F T +385 (0) F +385 (0) info@omegaair.si Cesta Dolomitskega odreda 0 SI000 Ljubljana, Slovenia uwe.ohletz@omegaair.de EurotecRing 5 D47445 Moers, Germany info@omegaair.hr Anićeva 3A HR0000 Zagreb, Croatia /05