Technical characteristics
1. The equipment has low energy consumption, low cost, strong adaptability, fast gas production, and
easy purity adjustment
2. Modular structural design, saving floor space;
3. Easy to operate, stable in performance, high in automation, and capable of achieving unmanned
operation:
4. Reasonable internal structure design to improve the adsorption efficiency of zeolite molecular
sieves:
5. Special airflow diffusion settings reduce the high-speed impact of airflow and extend the service
life of zeolite molecular sieves:
6. The use of well-known brands for key components is an effective guarantee of equipment quality:
7. Automatic interlocking venting device to ensure the quality of finished oxygen:
8. Optional touch screen display, dew point detection, energy-saving control, DCS communication, etc
Specifications, models, and technical parameters
QTN49 nitrogen generator (purity 99.99%) |
Model specifications |
Gas production in
Nm ³/ H |
Air consumption
m ³/ Min |
Import diameter |
Outlet diameter |
Size and weight |
QTN49-3 |
3 |
0.33 |
15 |
15 |
105*60*165/0.48 |
QTN49-5 |
5 |
0.42 |
15 |
15 |
105*60*165/0.55 |
QTN49-10 |
10 |
0.96 |
20 |
15 |
165*100*180/0.7 |
QTN49-15 |
15 |
1.83 |
20 |
15 |
165*100*180/0.8 |
QTN49-20 |
20 |
1.96 |
25 |
15 |
175*110*185/0.9 |
QTN49-30 |
30 |
2.85 |
32 |
20 |
185*120*190/1.1 |
QTN49-40 |
40 |
32 |
3.97 |
25 |
190*130*200/1.2 |
QTN49-50 |
50 |
4.25 |
40 |
32 |
195*135*210/1.4 |
QTN49-60 |
60 |
5.34 |
40 |
32 |
195*140*220/1.5 |
QTN49-70 |
70 |
5.95 |
40 |
32 |
200*140*230/1.6 |
QTN49-80 |
80 |
6.97 |
50 |
32 |
210*155*240/1.8 |
QTN49-90 |
90 |
7.75 |
50 |
40 |
215*160*240/1.9 |
QTN49-100 |
100 |
8.87 |
50 |
40 |
225*165*245/2.1 |
QTN49-120 |
120 |
10.3 |
50 |
40 |
240*165*250/2.3 |
QTN49-150 |
150 |
12.85 |
65 |
40 |
220*220*260/2.7 |
QTN49-200 |
200 |
16.89 |
80 |
50 |
260*220*260/3.1 |
QTN49-300 |
300 |
24.85 |
100 |
65 |
280*240*280/3.8 |
QTN49-400 |
400 |
33.76 |
100 |
65 |
300*280*320/4.5 |
Note: This purity can be produced up to 2000m ³/ H. Specific parameters may have certain errors based on the amount of raw air, air humidity, ambient temperature, and altitude. |
operational principle
In the case of adsorption equilibrium, the higher the gas pressure and the lower the temperature whenany adsorbent adsorbs the same gas.
The greater the adsorption capacity. On the contrary, the lower the pressure and the higher the temperature, the smaller the adsorption capacity. If the temperature remains constant and adsorption is carried out under pressure, the method of depressurization (vacuum pumping) or atmospheric
desorption is called pressure swing adsorption. It can be seen that pressure swing adsorption adsorbs and desorbs by changing the pressure.
Zeolite molecular sieves have a significant difference in their adsorption capacity for oxygen and nitrogen. Zeolite molecular sieves are a type of zeolite with a high internal adsorption capacity Multi porous materials utilize the principle of pressure swing adsorption to achieve the separation of oxygen and nitrogen in the micropores of zeolite molecular sieves under certain pressure. When the pressure increases, zeolite molecular sieves absorb nitrogen and produce oxygen. When the pressure drops to normal pressure, carbon molecular sieves desorb nitrogen for regeneration. Pressure swing adsorption oxygen production equipment usually adopts two adsorption tower processes, one tower
absorbs oxygen to produce nitrogen, and the other tower removes nitrogen for regeneration. This alternate cycle continuously produces high-quality oxygen.
Oxygen application fields and applications
Electric furnace steelmaking: decarburization, oxygen combustion heating, foam deep slag, metallurgical control and
subsequent heating.
Wastewater treatment: enriched oxygen aeration of activated sludge, oxygenation of water tank, and ozone
sterilization. Glass melting: oxygen assisted combustion and dissolution, cutting, increased glass production, and
extended furnace life. Pulp bleaching and papermaking: Chlorine bleaching is converted into oxygen rich bleaching,
providing inexpensive oxygen and wastewater treatment. Nonferrous metal smelting: Smelting uranium, zinc, nickel,
lead, etc. requires the use of enriched oxygen. The PSA method is gradually replacing the deep cooling method in field
cutting construction. In field steel pipe cutting, enriched oxygen is used, and mobile or small oxygen generators can
meet the requirements for petrochemical and chemical oxygen. Oxygen reactions in petroleum and chemical
industries use enriched air for oxidation reactions, which can improve reaction speed and chemical product yield. Ore
treatment: used in gold and other production processes, can improve the extraction rate of metals. Aquaculture:
Oxygen enriched aeration can increase the dissolved oxygen in water, significantly increasing fish yield; Can provide
oxygen for the transportation of live fish; Intensive fish farming and fermentation use: oxygen rich instead of air; For
aerobic fermentation, oxygen supply can greatly improve efficiency. Drinking water: ozone sterilization.
Technical characteristics
1. Advanced process design, using inequality pressure equalization process, directly reduces the air consumption of
compressed air;
2. Advanced filling technology makes carbon molecular sieve filling more uniform and dense;
3. Reasonable internal structure design to improve the adsorption efficiency of carbon molecular sieves;
4. Special airflow diffusion settings reduce the high-speed impact of airflow and extend the service life of carbon
molecular sieves;
5. Advanced built-in cylinder compression technology to prevent tunneling effects;
6. The equipment has low energy consumption, low cost, strong adaptability, fast gas production, and easy adjustment
of purity;
7. Easy to operate, stable in performance, high in automation, and capable of achieving unmanned operation;
8. Automatic interlocking venting device to ensure the quality of finished nitrogen gas;
9. Has multiple fault diagnosis, alarm, and automatic processing functions;
10. Optional touch screen display, dew point detection, energy-saving control, DCS communication, etc
Factory display
Hebei Lixin Medical Engineering Co., Ltd. was established in 2011, mainly producing medical center gas supply systems, medical molecular sieve oxygen production equipment, medical negative pressure suction systems, medical compressed air systems, medical air cleaning equipment, as well as hospital operating rooms, ICU/CCUs, liquid dispensing centers, supply rooms, and laboratory purification engineering; Radiation protection engineering; Enterprises engaged in medical engineering.
The company adheres to the principle of "customer-centric, service-oriented" and has obtained 17 system certifications, including IS09001, 13485, 50430, 28001, 45001, and five-star after-sales service certifications, as well as 24 national patents and software copyrights.
We have established multiple branch offices in China, adhering to the fundamental principle of prioritizing public health, serving the people and winning their trust.
Exhibition participation cases
FAQ:
1. Are you a manufacturer or a trading company?
We are a manufacturer of medical oxygen concentrators, established in 2011.
2. What is the order for medical oxygen devices during the filling process of gas cylinders?
a. Inquiry - Provide us with all clear requirements.
b. Quotation - Formal quotation table with clear instructions.
c. Print files - PDF, Ai, CDR, PSD, image resolution must be at least 300 dpi.
d. Contract Confirmation - Provide accurate contract details.
e. Payment terms - negotiable.
f. Production - Batch production
g. Sea freight - sea freight, air freight, or express delivery. Detailed pictures of the packaging will be provided.
h. Installation and debugging
3. What payment method do you use?
Telegraphic transfer, letter of credit, etc.
4. How to obtain timely quotations for medical oxygen equipment filled with gas cylinders?
When you send us an inquiry, please include it with the following technical information.
1) Nitrogen flow rate: _____ Nm3/hour
2) Nitrogen purity: _____%
3) Nitrogen discharge pressure: _____ bar
4) Voltage and frequency: ______ V/PH/HZ