GFC Infrared Carbon Analyzer

onlineGFC Infrared Carbon AnalyzerUsing the principle of infrared absorption for gas analysis. Gas molecules such as carbon dioxide can absorb specific wavelengths of infrared light. When a gas passes between an infrared light source and a detector, the gas molecules absorb some of the infrared light, resulting in a change in the detected signal intensity. By measuring this change, the analyzer can calculate the concentration of the gas.

The GFC system is mainly responsible for precise adjustment and control of gas flow to ensure flow stability during the measurement process. The flow control mechanism plays a crucial role in ensuring instrument accuracy and long-term stability.

To ensure online availabilityGFC Infrared Carbon AnalyzerTo operate stably under various environmental conditions, operators need to follow certain operating procedures and precautions. These operating conditions include equipment startup, calibration, daily maintenance, troubleshooting, and other aspects.

1. Equipment startup and calibration

Before starting the equipment, all connections, including power, gas, and data interfaces, should be checked for firmness. When starting the device, it should be ensured that the instrument is operating in a normal working environment and allowed to perform self inspection to confirm the working status of the instrument. Calibration is a crucial step in ensuring measurement accuracy. It is usually necessary to use a standard gas of known concentration for regular calibration of the instrument, and the calibration frequency depends on the frequency of use of the instrument and the stability of the working environment.

2. Regular inspection and maintenance

Regular maintenance and inspection are required to ensure its long-term stable operation. Common maintenance projects include:

Clean optical components: Regularly clean optical windows and detectors to prevent dust or pollutants from affecting the optical path.

Check the airflow system: Check if the flow meter and flow controller are working properly to ensure stable airflow.

Replace consumable components such as infrared light sources and sensors regularly to ensure measurement accuracy.

Check electrical connections: Ensure stable electrical connections to prevent measurement errors caused by poor contact.

3. Troubleshooting and Handling

During operation, some common faults may be encountered, such as unstable readings, display errors, or instrument failure to start. When encountering such problems, the first thing to check is whether the power supply, gas source, and connecting wires of the instrument are normal. If the problem still exists, you can check the fault codes of the instrument and refer to the troubleshooting methods in the operation manual. For more complex issues, it is recommended to contact the manufacturer for technical support or repair.

To further enhance online performanceGFC Infrared Carbon AnalyzerIt is recommended to take the following measures to optimize the performance of the usage environment and operating conditions:

1. Choose a stable installation location: Install the instrument in a place with relatively stable temperature and humidity, no strong electromagnetic interference, and no harmful gas pollution.

2. Use airflow regulation equipment: For environments with unstable airflow, it is recommended to equip an airflow regulation device to ensure stable gas flow.

3. Regular calibration and inspection: Calibrate the instrument according to the time intervals specified in the equipment manual to ensure its long-term accuracy.

4. Remote monitoring and data recording: Supports remote monitoring and data recording functions, real-time monitoring of equipment status through digital means, and timely detection of potential problems.

5. Training operators: Operators should receive regular training to master the correct use of instruments and troubleshooting skills, ensuring the long-term stable operation of equipment.