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Making nitrogen through transformation adsorption realizes through selective absorption characteristic of core material carbon molecular sieve (CMS) and pressure difference because of absorption capacity. Oxygen molecule in air is held up carbon molecule sieve because the expansion speed of oxygen molecule is rapider than nitrogen molecule when the pressure is rising, relatively, the nitrogen molecule is collected, when the pressure is fall, the oxygen adsorbed through desorption and the carbon molecular sieve is regenerated, which forms circular operation and realizes unceasing nitrogen making.
Type Absorb the pressure Cmpd Density of nitrogen % Nitrogen yield M/T. H Accepting rate of nitrogen %
CMS�80 0.6 99.9 95 27
99.5 170 38
99 267 43
0.8 99.9 110 26
99.5 200 37
99 290 42
CMS�90 0.6 99.9 110 30
99.5 185 39
99 280 42
0.8 99.9 120 29
99.5 210 37
99 310 40
CMS�00 0.6 99.9 120 32
99.5 200 42
99 300 48
0.8 99.9 130 31
99.5 235 40
99 340 46
CMS�10 0.6 99.9 128 32
99.5 210 42
317 48
0.8 99.9 139 31
99.5 243 42
9 357 45
CMS�20 0.6 99.9 135 33
99.5 220 41
99 330 44
0.8 99.9 145 30
99.5 252 41
99 370 47
Main features of Carbon Molecualr Sieves:
CMS Type Adsorptin Pressure(MPa) N2 Concentration N2 Production Capacity
HCMS-180 0.6-0.65 99 235
0.6-0.65 99.5 180
0.6-0.7 99.9 105
HCMS-190 0.6-0.65 99 285
0.6-0.65 99.5 190
0.65-0.75 99.9 127
HCMS-200 0.6-0.65 99 283
0.6-0.65 99.5 200
0.7-0.8 99.9 125
Compressive Strength: 90(N)
Wear resistance: <0.7
T/M3 Bulk Density: 0.65-0.68
Micro-hole Diameter: 3A
Sinze Cylinder Diameter(mm): 2.2-2.3
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