Oxygen Generator
Principles:
N2 and O2 all have a quadrupole, for the reason that the quadrupole of N2 is bigger than the quadrupole of O2, the adsorption capacity by molecular sieve to N2 is stronger than O2.When the compressed air in certain pressure flow through adsorption bed formed by molecular sieve, the N2 gas is absorbed and O2 is obtained by separation.
The main part of O2 generator is two towers filled with molecular sieve ,when the compressed air get into adsorption tower, the N2 is absorbed by molecular sieve,O2 is produced from the export terminal .When one tower produces O2,another tower release the N2 by reducing the pressure to get the renewable desorption of carbon molecular sieve.Two towers alternate adsorption and regeneration to output O2 continuously.
Competitive Advantage
.Reliability of operations second to none
.Customized design
.Lower cost
.Excellent after sales services
.High efficiency operation
.Automated unattended operation
.Remote monitoring and control available
.Minimal space requirements
.Long-term commitment to R&D
.Your own independent on-site supply of nitrogen
.Long life time and excellent performance
.Cabinet, skidded, containerized on-site nitrogen generator systems available
Oxygen generator applications
Paper and Pulp industries
Glass industries
Metallurgical industries
Chemical industries
Water and Wastewater treatment
Fish farming
Model |
Flow
(Nm3/hr) |
Air consumption
(Nm3/min) |
Inlet
(mm) |
Outlet
(mm) |
HL-WG-STDO-3 |
3 |
0.95 |
20 |
15 |
HL-WG-STDO-6 |
6 |
1.9 |
25 |
15 |
HL-WG-STDO-10 |
10 |
2.8 |
32 |
15 |
HL-WG-STDO-20 |
20 |
5.6 |
40 |
20 |
HL-WG-STDO-30 |
30 |
8.4 |
50 |
20 |
HL-WG-STDO-50 |
50 |
14 |
65 |
25 |
HL-WG-STDO-80 |
80 |
22 |
65 |
32 |
HL-WG-STDO-100 |
100 |
28 |
80 |
32 |
HL-WG-STDO-150 |
150 |
42 |
100 |
40 |
HL-WG-STDO-200 |
200 |
56 |
125 |
40 |