| product |
oxygen concentrator |
Trademark |
Skid Mounted |
| Gas |
O2 |
Purity |
99%-99.999% |
| Noise Level |
Low |
voltage |
220V |
| certification |
ISO, CE, ISO1400/18001 |
manufacturer |
china |
| Application |
Industry / Agriculture / Livestock / Food / Medical / Electronic |
trade mark |
LDH |
| Transport Package |
Pre-Packing |
working temperature |
5-45ºC |
Working Principle of the Oxygen Machine
The pressure swing adsorption (PSA) oxygen generator operates on the principle of gas separation. Utilizing zeolite molecular sieves as adsorbents, it capitalizes on the disparity in the adsorption capacities of oxygen and nitrogen on the molecular sieve surface within compressed air. Through the mechanisms of pressurized adsorption and decompression desorption, the PSA oxygen generator directly extracts product oxygen from compressed air, efficiently separating oxygen from other components in the air to produce a stream of high - purity oxygen.
Premium Componentry: The system's core components are sourced from globally renowned brands or imported directly, ensuring exceptional quality and reliability.
Automated Operation: Our system offers fully automated functionality, including automatic start/stop, remote control, automatic venting of substandard oxygen, and integrated control of all system equipment.
Comprehensive Monitoring: Equipped with a multi-functional LCD display, the system allows users to configure parameters such as flow rate, purity, and pressure. Real-time monitoring of oxygen flow, purity, and pressure is presented in a full-screen format.
Energy-Efficient Production: Leveraging ambient air as its raw material, the system requires only electrical power to generate oxygen, ensuring sustainability and cost-effectiveness.
Advanced Remote Monitoring: An optional remote wireless monitoring system enables real-time, dynamic surveillance of the equipment, facilitating automated control and optimized operation.
Dual-Mode Maintenance: The equipment supports both remote and on-site maintenance. Users can remotely monitor the equipment's operational status and data in real-time.
Remote Debugging and Upgrades: The system allows for remote debugging and software upgrades, ensuring seamless performance and continuous improvement.
| ltem |
model |
Capacity(Nm3/h) |
size(mm) |
Weight(KG) |
Power(Kw) |
Air Inlet |
Oxygen outlet |
| 1 |
LPO-5 |
1-5 |
770*750*1800 |
380 |
0.2 |
DN15(G1/2") |
DN15(G1/2") |
| 2 |
LPO-10 |
6-10 |
770*750*2200 |
450 |
0.2 |
DN15(G1/2") |
DN15(G1/2") |
| 3 |
LPO-15 |
10-15 |
880*780*2400 |
780 |
0.2 |
DN20(3/4") |
DN15(G1/2") |
| 4 |
LPO-20 |
16-20 |
1550*1000*2500 |
1260 |
0.2 |
DN25(G1") |
DN20(3/4") |
| 5 |
LPO-25 |
21-25 |
1550*1000*2600 |
1480 |
0.2 |
DN40(G11/2") |
DN25(G1") |
| 6 |
LPO-30 |
26-30 |
1550*1000*2800 |
1680 |
0.2 |
DN40(G11/2") |
DN25(G1") |
| 7 |
LPO-50 |
50-55 |
1750*1200*3150 |
2150 |
0.2 |
DN40(G11/2") |
DN25(G1") |
| |
Model |
purity |
Size |
Weight |
Inlet |
Oulet |
|
| 1 |
LPO-3 |
90-95% |
1200*900*1900 |
520 |
DN15 |
G1/2" |
| 2 |
LPO-5 |
90-95% |
1350*1050*2100 |
750 |
DN20 |
G1/2" |
| 3 |
LPO-10 |
90-95% |
1550*1300*2100 |
1100 |
DN25 |
G1/2" |
| 4 |
LPO-15 |
90-95% |
1700*1450*2350 |
1500 |
DN32 |
G1/2" |
| 5 |
LPO-20 |
90-95% |
1800*1550*2350 |
1750 |
DN32 |
G1/2" |
| 6 |
LPO-25 |
90-95% |
1900*1650*2400 |
2000 |
DN40 |
G1" |
| 7 |
LPO-30 |
90-95% |
2000*1750*2400 |
2250 |
DN40 |
G1/2" |
| 8 |
LPO-35 |
90-95% |
1970*1250*2800 |
1800 |
DN40 |
DN25 |
| 9 |
LPO-40 |
90-95% |
2000*1300*2460 |
2380 |
DN40 |
DN25 |
| 10 |
LPO-50 |
90-95% |
2000*1300*2800 |
2790 |
DN50 |
DN25 |
| 11 |
LPO-60 |
90-95% |
2000*1300*2800 |
2930 |
DN50 |
DN25 |
| 12 |
LPO-70 |
90-95% |
2200*1500*2900 |
3190 |
DN50 |
DN40 |
| 13 |
LPO-80 |
90-95% |
2200*1500*2900 |
3585 |
DN50 |
DN40 |
| 14 |
LPO-90 |
90-95% |
2250*1550*2980 |
3940 |
DN50 |
DN40 |
| 15 |
LPO-100 |
90-95% |
2370*1500*3050 |
4249 |
DN65 |
DN40 |
| 16 |
LPO-110 |
90-95% |
2370*1500*3240 |
4508 |
DN65 |
DN40 |
| 17 |
LPO-120 |
90-95% |
2370*1500*3440 |
4708 |
DN65 |
DN40 |
| 18 |
LPO-130 |
90-95% |
2370*1500*3600 |
4910 |
DN65 |
DN50 |
| 19 |
LPO-160 |
90-95% |
2440*1850*3700 |
5810 |
DN80 |
DN65 |
|
Oxygen flow
|
1~1000Nm3/h |
Oxygen purity
|
30%-98% |
Oxygen dew point
|
≤-45ºC |
Export pressure
|
0.1~0.8Mpa |
Oxygen serves two primary functions: supporting respiration and combustion. Additionally, it has numerous other applications, most of which rely on its oxidizing properties.
Oxygen supply is essential in oxygen-deprived, low-oxygen, or anaerobic environments, such as during diving operations, mountaineering expeditions, high-altitude flights, space missions, and medical emergencies. It ensures the survival and well - being of individuals in these challenging conditions.
2. Metallurgical Processes
- Steelmaking: In steel production, high - purity oxygen is blown into the furnace. Oxygen reacts with carbon, phosphorus, sulfur, and silicon through oxidation reactions. This not only reduces the carbon content in steel but also helps to remove phosphorus, sulfur, and silicon impurities, purifying the steel. Moreover, the heat generated during these oxidation reactions is sufficient to maintain the high temperatures required for steelmaking. As a result, oxygen blowing shortens the smelting time and improves the quality of the final steel product.
- Ironmaking: In blast furnaces, increasing the oxygen concentration in the incoming air reduces the coke consumption and boosts the iron production yield. In non - ferrous metal smelting, using oxygen - enriched air can also accelerate the smelting process, enhancing production efficiency.
In the synthetic ammonia production process, oxygen is mainly used to oxidize the raw gas, which intensifies the reaction process and increases fertilizer output. This is evident in processes like the high - temperature cracking of heavy oil and the gasification of coal powder.
Liquid oxygen is the ideal oxidizer for modern rocket fuels. Supersonic aircraft also require liquid oxygen as an oxidant. When combustible materials are impregnated with liquid oxygen, they form highly explosive mixtures, which are used to manufacture liquid oxygen explosives.
Oxygen, when used as a fueling agent in combination with flammable gases such as acetylene and propane, is widely employed in the metal welding industry. Its use is particularly prevalent in various sectors, especially in machinery enterprises. Oxygen - fuel cutting is also a highly efficient and commonly preferred method for cutting metals due to its ease of operation.
Packaging and transportation
FAQ
1. What is the purity level of the PSA oxygen machine?
The typical purity of a PSA oxygen machine ranges from 90% to 93%. However, our PSA oxygen machines offer higher purity options. They can achieve purity levels of 95% to 98%, and in some models, even reach up to 99%.
2. What should be considered when matching an ozone generator with an oxygen machine?
When pairing an ozone generator with an oxygen machine, it is crucial to select an oxygen machine that provides stable gas flow and consistent purity. Inconsistencies in the oxygen machine's performance can lead to fluctuations in ozone concentration and yield, ultimately affecting the effectiveness of the ozone generation process.
3. How should PSA oxygen machines be maintained?
The daily maintenance of PSA oxygen machines is straightforward:
Air Compressor Maintenance: Regularly service the air compressor. Pay close attention to air filtration and oil - related aspects. Replace the oil according to the manufacturer's instructions. This ensures the compressor operates efficiently and prolongs the lifespan of the oxygen machine.
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