120 Note Parker membrane systems produce both nitrogen and oxygen enriched air. Nitrogen enriched air can cause suffocation and oxygen enriched air causes increased fire hazards. The oxygen enriched air is available at ambient pressure and pressure build-up of enriched oxygen at the outlet must be prevented, otherwise a serious (reversible) decrease in performance will result. The nitrogen enriched air produced should be treated as pressurised air. Performance data Performance data is based on 20°C feed-air temperature and 1013 mbar ambient pressure Industrial Nitrogen Gas Generation - Membrane Modules www.parker.com/gsfe Purity % Typical Nitrogen1) flow rate in m3/hr2) (SCFM) 99.5 99.0 98.0 97.0 96.0 95.0 4 bar g (58 psi g) 0.20 (0.12) 0.32 (0.19) 0.50 (0.29) 0.73 (0.43) 0.84 (0.49) 1.04 (0.61) 5 bar g (72.5 psi g) 0.28 (0.16) 0.46 (0.27) 0.73 (0.43) 0.92 (0.54) 1.17 (0.69) 1.54 (0.91) 6 bar g (87 psi g) 0.44 (0.21) 0.60 (0.35) 0.92 (0.54) 1.20 (0.71) 1.53 (0.9) 1.75 (1.03) 7 bar g (101.5 psi g) 0.44 (0.26) 0.71 (0.42) 1.16 (0.68) 1.49 (0.88) 1.90 (1.12) 2.10 (1.24) 8 bar g (116 psi g) 0.54 (0.32) 0.85 (0.5) 1.31 (0.77) 1.75 (0.77) 2.17 (1.28) 2.60 (1.53) 9 bar g (130.5 psi g) 0.59 (0.35) 0.97 (0.57) 1.54 (0.91) 2.08 (1.22) 2.50 (1.47) 3.00 (1.77) 10 bar g (145 psi g) 0.67 (0.39) 1.11 (0.65) 1.78 (1.05) 2.29 (1.35) 2.80 (1.65) 3.40 (2) 11 bar g (159.5 psi g) 0.73 (0.43) 1.25 (0.74) 1.95 (1.15) 2.57 (1.51) 3.20 (1.88) 3.90 (2.3) 12 bar g (174 psi g) 0.79 (0.46) 1.39 (0.82) 2.17 (1.28) 2.80 (1.65) 3.40 (2) 4.20 (2.47) 13 bar g (188.5 psi g) 0.89 (0.52) 1.49 (0.88) 2.40 (1.41) 3.10 (1.82) 3.80 (2.24) 4.80 (2.83) Purity % Typical Feed-air consumption at nitrogen flow rate in m3/hr2) (SCFM) 99.5 99.0 98.0 97.0 96.0 95.0 4 bar g (58 psi g) 1.9 (1.1) 1.8 (1.1) 1.9 (1.1) 2.3 (1.4) 2.3 (1.4) 2.5 (1.5) 5 bar g (72.5 psi g) 2.2 (1.3) 2.3 (1.4) 2.6 (1.5) 2.7 (1.6) 3.0 (1.8) 3.6 (2.1) 6 bar g (87 psi g) 2.5 (1.5) 2.8 (1.6) 3.2 (1.9) 3.4 (2) 3.9 (2.3) 4.0 (2.4) 7 bar g (101.5 psi g) 3.0 (1.8) 3.3 (1.9) 3.9 (2.3) 4.2 (2.5) 4.8 (2.8) 4.7 (2.8) 8 bar g (116 psi g) 3.5 (2.1) 3.8 (2.2) 4.4 (2.6) 4.9 (2.9) 5.4 (3.2) 5.8 (3.4) 9 bar g (130.5 psi g) 3.7 (2.2) 4.3 (2.5) 5.1 (3) 5.8 (3.4) 6.3 (3.7) 6.7 (3.9) 10 bar g (145 psi g) 4.1 (2.4) 4.8 (2.8) 5.9 (3.5) 6.3 (3.7) 7.0 (4.1) 7.5 (4.4) 11 bar g (159.5 psi g) 4.4 (2.6) 5.3 (3.1) 6.3 (3.7) 7.1 (4.2) 7.9 (4.6) 8.5 (5) 12 bar g (174 psi g) 4.6 (2.7) 5.9 (3.5) 7.0 (4.1) 7.7 (4.5) 8.4 (4.9) 9.3 (5.5) 13 bar g (188.5 psi g) 5.5 (3.2) 6.4 (3.8) 7.9 (4.6) 8.7 (5.1) 9.5 (5.6) 10.7 (6.3) Maximum pressure drop <0.1 bar. Values between brackets are indicative imperial values. Ambient temperature +2°C to +50°C (+36°F to 122°F) Ambient pressure atmospheric Air quality clean air without contaminants Nitrogen flow rate at feed-air temperatures other than 20ºC See page 150 Feed-air consumption at feed-air temperatures other than 20ºC See page 150 Housing Steel Tube Aluminum Coating (housing) ESPC to RAL 7039 (Quartz Grey) Coating (tube) none 3D model CAD STEP file Maximum operating pressure 13.0 bar g (190 psi g) Min. / Max. operating temperature +2°C to +50°C (+36°F to 122°F) Maximum oil vapour content <0.01 mg/m3 (<0.01 ppm (w)) Particles filtered at 0.01 µm cut off Relative humidity <100% (non condensing) Dimensions H x W x D 758 x 80 x 63 mm (29.84" x 3.15" x 2.48") Weight 3.2 kg (7.05 lb) Connection feed-air G3/ 8 female to ISO 228 Connection nitrogen enriched air G3/ 8 female to ISO 228 Connection oxygen enriched air at atmospheric pressure G3/ 8 female to ISO 228 Dimensional drawing Refer to K3.1.344 1) The above data represents the typical performance of a single membrane module. Actual performance can vary depending on factors such as feed air pressure and temperature. Please contact your Parker go to person for actual performance information to meet your application’s requirements. 2) m3/hr refers to conditions at 1013 mbar(a) and 20°C. For higher purities please contact Parker. SmartFluxx SA604 - Part Number: 159.005273 Ambient Conditions Flow Rate Corrections Material Services on Request Feed-air Conditions Weight, Dimensions and Connections H W D
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