An isobutane gas alarm Detector is a device used to detect the concentration of isobutane (C4H10) in the air. Based on the flammability and toxicity of isobutane gas, it measures the concentration of isobutane in indoor air through sensors and triggers an alarm when a set threshold is exceeded to remind people to take appropriate measures.
Working principle
Isobutane gas alarm Detectors typically use semiconductor sensors or combustible gas sensors to detect the concentration of isobutane. The sensor chemically reacts with the isobutane or changes the electrical signal, generating an electrical signal. The sensor measures and analyzes the strength of this electrical signal and determines the concentration of isobutane in the indoor air based on the measurement results. Once the isobutane concentration exceeds a set threshold, the alarm will issue an alarm signal such as sound, light or vibration.
Application field
Isobutane gas alarm Detectors are widely used in the following fields:
Industrial production sites: used to monitor the leakage of isobutane in chemical plants, petrochemical plants, dangerous goods storage, etc., to ensure the health and safety of workers.
Oil and gas exploration and production: It is used to monitor the concentration of isobutane in underground and offshore environments such as oil and gas wells, oil tanks, and oil platforms, and to prevent fires and explosions caused by combustible gases.
Laboratories and research institutions: used to monitor isobutane concentrations in laboratories, research institutions, and scientific research sites to ensure safety and accuracy of experimental results.
Ships and transportation: It is used to monitor isobutane leakage in ship cargo holds, fuel storage areas, and transportation to ensure the safe operation of ships and vehicles.
Building and indoor air quality monitoring: It is used to monitor the concentration of isobutane in construction sites, interior decoration, and air conditioning and ventilation systems to ensure the health and safety of construction personnel and residents.
General technical parameters
The following are examples of some technical parameters in a sulfur fluoride gas alarm:
| Technical parameters | describe |
|---|---|
| Detection range | Minimum and maximum detection ranges for SF6 gas concentrations in indoor air |
| resolution | The number of decimal places in the measurement result |
| response time | Time from when the SF6 concentration exceeds the threshold to when the alarm is triggered |
| sensitivity | Sensitivity to changes in SF6 concentration |
| Operating temperature range | The temperature range in which the device can operate normally |
