With the support of modern technology, human beings are able to carry out simulation experiments in various environments, among which the altitude simulation cabin is a very important tool. Simulate the air pressure and oxygen content in the high-altitude environment, by simulating the environment at different altitudes, so that researchers can conduct high-altitude experiments on the ground, so as to provide a theoretical basis for the prevention and development of high-altitude diseases, and can study the physiological and psychological reactions of the human body in the high-altitude environment, which is used to study the impact of the high-altitude environment on the human body, such as altitude sickness, hypoxia, etc.
Construction requires advanced technology and equipment, including a barometric pressure control system and an oxygen supply system. Through these systems, the altitude simulation chamber can simulate the corresponding air pressure and oxygen content at different altitudes, so that researchers can carry out experiments at different altitudes as needed, and it usually includes temperature control, humidity control, vacuum control and air conditioning systems, through the synergy of these systems, the temperature, humidity and pressure environment in the plateau area can be accurately simulated. This equipment has a wide range of applications in scientific research, military medicine and other fields.
It can be used not only for scientific research, but also for personnel training and medical assistance at high altitudes. Through training in the altitude simulation cabin, people can adapt to the air pressure and oxygen content in the high-altitude environment, reduce the occurrence of altitude sickness and mountain sickness, and provide important support for human scientific research and life, so that we can better understand and adapt to the high-altitude environment, and contribute to the development and progress of mankind.
In the field of military medicine, it is widely used in high-altitude military training and research. By simulating the environment of plateau low pressure and lack of oxygen, the adaptability and combat effectiveness of soldiers in the plateau environment can be evaluated, and at the same time, it can also provide scientific basis and technical support for plateau operations.
The altitude simulation chamber is a very important experimental equipment, which can simulate different altitude and climatic conditions, and provide strong guarantee and support for the study of the plateau environment and human response.
British SST Zirconia Oxygen Sensor Oxygen Measurement System.
o2s-fr-t2-18bm-c-oxy-gc
Measuring range 01 100% oxygen sensor.
A wide range of application formats are available, with digital and analog output options.
No reference gas is required.
Tried and tested technology.
The closed-loop sensing principle enables fail-safe "heartbeat" operation.
It is suitable for aggressive, high-temperature, high-pressure, and high-humidity environments.
Suitable for harsh, harsh environments and airdrafts.
Simple, single-point calibration.
Non-depleting sensor battery technology for a long service life.
Oxygen range (analog output) 0 -25% o2 (default).
Oxygen range (Modbus RTU) 0 -100% O2
Accuracy after calibration 2 05% o2
Repeatability after calibration 05% o2
The output resolution is 01%
Response time (10-90% steps).
Connecting a standard response sensor: 4 seconds.
Initial warm-up time (to stable output): 90 seconds.
Or set any concentration range, such as %, via the 485 output
Built-in pressure sensor for barometric pressure compensation.
Power supply voltage : 24 2V DC
Supply current : 600mA at 24VDC
Digital output : RS485 (Modbus RTU).
Analog Output : 4-20mA; Load 100-600
Temperature Limit : Oxygen probe -100 °C - 250 °C
-40°C - 75°C for the board