The containerized oxygen system is an integrated, mobile oxygen station capable of operating independently and producing standard oxygen from the air. It does not need to be installed on site and can be moved with the vehicle, which is a turnkey engineering solution widely used in outdoor oxygen production. It can meet the oxygen requirements of a system such as oxygen production, oxygen backup, oxygen bottle filling, and the built-in generator can support the uninterrupted operation of the whole system in the field.
Container type mobile oxygen making machine
Features:
- Turnkey project, no need for on-site installation
- Small footprint, movable
- Automatic independent operation, intelligent control;
- Compact layout, low failure rate
- Optional generator to support field work.
With the continuous development of science and technology, the medical and health field has also ushered in many innovative products, one of which is the container oxygen generator. With its high efficiency, convenience and reliability, this type of equipment plays an important role in medical emergency, disaster relief and medical support in remote areas.
Design of container type oxygen generator
Containerized oxygen generator is a new type of oxygen generator which integrates oxygen production equipment in a standard container. The design idea of this oxygen generator is mainly to combine oxygen production equipment with storage, transportation and other functions, so that it can quickly provide oxygen in different environments.
The design features of container type oxygen generator mainly include the following points:
High degree of integration: The container oxygen generator integrates oxygen production equipment, oxygen storage equipment, transportation equipment and other functions in a standard container, improving the integrity and compactness of the equipment.
Easy to move: Because the container type oxygen generator uses a standard container as the shell, it can be easily moved through a transport vehicle to adapt to different working environments.
High degree of automation: The container oxygen generator generally adopts advanced automation technology, which can realize remote monitoring and automatic regulation, and improve the stability and reliability of the equipment.
Relevant research shows that the container oxygen generator has obvious advantages in design and performance. Compared with traditional oxygen production equipment, containerized oxygen generator has lower oxygen production cost, higher energy utilization rate and lower pollutant emission.
Operation and maintenance of oxygen concentrator
Operation process
The operation process of a containerized oxygen concentrator generally includes the following steps:
(1) Check if all preparation work for the oxygen concentrator has been completed, including power connection, pipeline connection, etc;
(2) Turn on the oxygen generator and adjust it according to the relevant parameters to ensure the normal operation of the equipment;
(3) Observe the operating status of the oxygen generator and keep relevant records;
(4) Regularly check various indicators of the equipment, including oxygen concentration, flow rate, etc;
(5) If any abnormal situation is found, stop the machine for inspection in a timely manner and take corresponding measures for maintenance.
Maintenance methods and common problem handling
The maintenance methods of containerized oxygen concentrators mainly include the following points:
(1) Regularly inspect the power supply, electrical components, etc. of the equipment to ensure their normal operation;
(2) Regularly clean the filters, separators, etc. of the equipment to prevent blockage;
(3) Regularly inspect the sealing and connecting components of the equipment to prevent air leakage;
(4) Regularly lubricate the equipment to ensure the flexibility and stability of mechanical components.
The problems that container oxygen concentrators may encounter during operation and maintenance mainly include power failures, damage to electrical components, clogged filters, and leakage of seals. Corresponding measures can be taken to investigate and handle these issues. For example, for power failures, the power lines and plugs can be checked; Damaged electrical components can be replaced; For clogged filters, they can be cleaned or replaced; For seal leakage, the seal can be replaced, etc.
Model number | Ozone production | Oxygen purity | Oxygen flow | Dimensions of the shelter | weight | Rated power | Operating power | Final ozone outlet size | Floor size |
TYF093-8-1F | 1kg/h | 93%±3% | 8Nm3/h | 5m*2.4m*2.61m*1只 | 6T | 31.31KW | 28.31KW | G3/4”DN20 | 7.4m*3.5m |
TYF093-16-2F | 2kg/h | 93%±3% | 16Nm3/h | 5.5m*2.4m*2.61m*1只 | 7T | 58.21KW | 52.21KW | G3/4”DN20 | 7.9m*3.5m |
TYF093-24-3F | 3kg/h | 93%±3% | 24Nm3/h | 6m*2.4m*2.61m*1只 | 7.5T | 76.31KW | 67.31KW | G1”DN25 | 8.4m*3.6m |
TYF093-32-4F | 4kg/h | 93%±3% | 32Nm3/h | 6.5m*2.4m*2.9m*1只 | 8T | 94.46KW | 82.46KW | G1”DN25 | 8.9m*3.6m |
TYF093-40-5F | 5kg/h | 93%±3% | 40Nm3/h | 8m*2.4m*2.9m*1只 | 9T | 115.26KW | 100.26KW | G1”DN25 | 10.4m*4.8m |
TYF093-48-6F | 6kg/h | 93%±3% | 48Nm3/h | 8m*2.4m*2.9m*1只 | 9.5T | 148.21KW | 130.21KW | G1”DN25 | 10.4m*4.8m |
TYF093-64-8F | 8kg/h | 93%±3% | 64Nm3/h | 8.5m*2.4m*2.9m*1只 | 11T | 184.59KW | 162.09KW | G1-1/2”DN40 | 10.9m*4.8m |
TYF093-80-10F | 10kg/h | 93%±3% | 80Nm3/h | 8m*2.4m*2.9m*2只 | 20T | 229.59KW | 199.59KW | G1-1/2”DN40 | 10.4m*5m*2 |