OSP Monoblock on-site N2 nitrogen generator /Nitrogen generation
system for Powder metallurgy industry
What Is a PSA Nitrogen Generator?
Pressure Swing Adsorption is a technology used for separating gas
species from a mix of various gases under pressure, depending on
the affinity for an adsorbent material and the species’ molecular
characteristics. This technology differs significantly from
cryogenic-distillation gas separation techniques. Specific
adsorptive materials, such as activated carbon or molecular sieves,
are used as a trap, adsorbing the target gas species at a high
pressure. Operating at near-ambient temperatures, the process
swings to low pressure, desorbing the adsorbed material.
How Do Industrial PSA Nitrogen Generators Work?
For this process, pressure swing adsorption relies on the principle
that under high pressure, gas tends to be attracted to solid
surfaces. Higher pressures result in more gas being adsorbed. When
pressure is reduced, adsorbed gas is then released (desorbed).
Pressure Swing Adsorption processes are often used to separate
gases from mixtures because different gases are attracted to
different solid surfaces more/less strongly. For example, if air
(gas mixture) passes under pressure through a particular vessel
containing an adsorbent bed of CMS (which attracts O2 more strongly
than it does N2), some or all of the oxygen will remain in the bed,
and gas exiting the vessel will then be enriched in N2. When the
bed reaches its capacity’s end to adsorb oxygen, it can regenerate
by reducing pressure, consequently releasing adsorbed oxygen. It
can then begin the cycle again and produce more high purity N2 gas.
Using two (2) adsorbent vessels allows for near-continuous
production of target gas. This technique also permits pressure
equalization, which is where gas leaving a depressurized vessel is
used to partially pressurize a second vessel. This common
industrial practice leads to significant energy savings.
Typical System Configuration (PFD)
System Specification
Sumairui Gas offers completely turn-key system designs, including
all components, elements, and design drawings. Our engineering
teams will work directly with you to design and install systems to
your exact specifications. Our full-service team is ready to answer
any questions you may have 24/7.
Technology
How Does a Pressure Swing Adsorption System Work?
Nitrogen PSA Generator Systems send air over a bed of adsorbent
material, which bonds with O2 and leaves a rich stream of nitrogen
gas to exit.
Adsorption separation is achieved by the following steps:
FEED AIR COMPRESSION & CONDITIONING
The ambient inlet air is compressed, dried by an air dryer,
filtered, all before entering the process vessels.
PRESSURIZATION & ADSORPTION
The pre-treated filtered air is then directed into a CMS-filled
vessel, where oxygen is adsorbed preferentially into the CMS pores.
This permits concentrated nitrogen, with adjustable purity as low
as 50 ppm O2, to stay in the gas stream until it flows out of the
vessel. The separation process interrupts the inlet flow (before
the full adsorption capacity of the CMS is reached) and finally
switches over to the other adsorber vessel.
DESORPTION
The O2-Saturated CMS is then regenerated by means of pressure
reduction, below the previous adsorption step. It achieves this by
using a pressure release system where exhaust/waste gas stream is
carefully vented from the vessel, typically through a
diffuser/silencer, then back into the safe surrounding atmosphere.
Regenerated CMS is now refreshed and can be used again for
generating nitrogen.
ALTERNATING VESSELS/SWING
Desorption and Adsorption should take place at equal time
intervals, alternately. This way, the constant generation of
nitrogen is be achieved by using two (2) adsorbers. As one is
adsorbing, the second is in regeneration mode. Constant switching
back and forth results in a controlled and continuous flow of
nitrogen.
NITROGEN RECEIVER
Continuous nitrogen product flow & purity is maintained by a
connected product buffer vessel which stores the N2 output. This is
designed for a pressure up to 150 psig (10 bar) and Nitrogen purity
up to 99.9995%.
NITROGEN PRODUCT
The resulting product is a constant stream of high purity, on-site
produced Nitrogen, and costs significantly below the standard price
of liquid/bottled gases.
| Item | Nitrogen purity (Nm3/hr) | Dimensions
| Weight |
| 95% | 99% | 99.5% | 99.9% | 99.99% | 99.995% | 99.999% | (L*W*H) mm | KG |
| OSP5 | 21 | 13 | 11 | 8 | 5 | 4.2 | 3 | 1100*600*1700 | 300 |
| OSP10 | 38 | 29 | 25 | 15 | 10 | 7.5 | 6.1 | 1200*650*1800 | 350 |
| OSP20 | 80 | 56 | 52 | 32 | 20 | 16 | 14 | 1600*1000*2200 | 450 |
| OSP40 | 160 | 116 | 105.2 | 67.2 | 40 | 34 | 28 | 1800*1000*2200 | 600 |
| OSP60 | 252 | 174 | 157.8 | 100.8 | 60 | 51 | 45 | 1900*1200*2200 | 750 |
| OSP80 | 339.2 | 232 | 211 | 132 | 80 | 70 | 62 | 2000*1200*2400 | 980 |
| OSP100 | 420 | 290 | 263 | 168 | 100 | 90 | 78 | 2100*1600*2500 | 1300 |
| OSP150 | 630 | 435 | 394.5 | 252 | 150 | 135 | 120 | 2500*1800*2600 | 1600 |
| OSP200 | 848 | 580 | 526 | 336 | 200 | 180 | 160 | 2800*1900*2850 | 2200 |
| OSP250 | 1060 | 725 | 657.5 | 420 | 250 | 225 | 200 | 3100*2000*3200 | 2600 |
| OSP300 | 1270 | 870 | 780 | 500 | 300 | 260 | 240 | 3900*2600*3400 | 3850 |
| OSP400 | 1696 | 1160 | 1052 | 672 | 400 | 360 | 320 | 4500*3250*3600 | 5000 |
| OSP500 | 2120 | 1450 | 1300 | 840 | 500 | 450 | 400 | 4900*3600*3800 | 6500 |
| OSP600 | 2540 | 1740 | 1578 | 1000 | 600 | 540 | 480 | 5300*3600*3900 | 7800 |
| OSP800 | 3390 | 2320 | 2100 | 1340 | 800 | 720 | 640 | 5600*3900*4100 | 10200 |
| OSP1000 | 4240 | 2900 | 2630 | 1680 | 1000 | 900 | 800 | 5800*4000*4500 | 11800 |
Design reference :
Compressed air inlet pressure 7.5 bar(g)/108 psi(g)
Air quality 1.4.1 according to ISO 8573-1:2010
Nitrogen outlet pressure 6 bar(g)/87psi(g)
Nitrogen quality 1.2.1 according to ISO 8573-1:2010.
Designed working temperature max 50 ℃
Dew point at Nitrogen outlet - 40 ℃
Notes:
OSP nitrogen generator max working pressure 10 bar(g)/145psi(g)
Following request of PSA on-site nitrogen generator will be
customized :
Working pressure >10 bar(g)/145 psi(g)
Dew point < - 50 ℃
Plug and play
Movable/containerized
Other special requirements as per site conditions
Applications
- Metal Industry
- Food & Beverage
- Packaging
- Vinification
- Laboratories
- Electronic
