1. Our company provides a comprehensive solution from device optimization design, equipment manufacturing, valve group prefabrication, instrument and computer control system assembly, software programming, on-site construction and production technical services, technical training, etc., until the device calibration is successful. Simultaneously responsible for providing long-term technical consulting services.

2. Based on basic data and user requirements, by optimizing the process plan, three process supporting technologies can be provided: depressurization and heating regeneration, isobaric heating regeneration, and depressurization and room temperature regeneration.

3. The unique isobaric regeneration process and equipment provided by our company have the advantages of no compression required for regenerated gas, high gas product rate, strong anti fatigue performance, good safety performance, long service life, low investment, and low energy consumption compared to depressurization regeneration in absorption towers.

4. The automatic monitoring system for the operation of the absorption tower adopts computer simulation control according to the temperature rise and fall curve requirements, effectively protecting the absorption tower and molecular sieve, reducing fluctuations, avoiding dust phenomena, improving service life, and enhancing safety.

5. The reasonable design of the airflow distributor in the molecular sieve absorption tower can ensure a more uniform distribution of airflow. The optimized molecular sieve loading program and quality control requirements make the molecular sieve bed dense, uniform, and consistent, avoiding channeling and improving the effective utilization rate of molecular sieves.

6. According to product quality requirements, Bosch can provide optimized supporting solutions to achieve a water content of 0.1ppm in dehydrated natural gas and a water dew point of below -70 ℃.

7. According to the needs, through optimized design, two tower or three tower process flow can be adopted, or a four tower process can be used: two towers adsorb simultaneously, one tower regenerates, and one tower blows cold. Through computer automatic control, the goal is to achieve high equipment utilization, low regeneration gas consumption, low energy consumption, and high efficiency.