AF Compressor Energy Sobriety

Core concept
Energy Sobriety: Reducing energy consumption from the source by optimizing design, streamlining components, reducing operating losses, and achieving "less use" while meeting operational requirements.
Energy Efficiency: Through technological innovation such as waste heat recovery, energy can be used better to enhance the overall efficiency of energy utilization.

implementation path
Low-energy design
Simplify components: reduce the number of cross head components, connecting rods, and bearings to minimize mechanical wear and tear.
Optimize sealing: Cancel the piston rod seal in the three-stage compression to reduce energy loss under high pressure.
Low speed operation: The speed is controlled between 340-755 rpm to reduce friction and wear, and extend component life.
Multi level compression optimization AF compressors
Secondary/tertiary compression is matched with different pressure requirements to reduce energy waste during the compression process, especially suitable for high-pressure applications such as PET bottle blow molding.
Waste heat recovery system

Convert 80% of the mechanical work of the compressor into heat energy recovery for factory heating, process heating, etc., to improve the comprehensive energy utilization efficiency.
Intelligent monitoring and maintenance of AF Compressors
Real time monitoring of compressor operation status, avoiding shutdown through predictive maintenance, ensuring long-term efficient operation of equipment.
Customized Solution AF Compressors
Customize the system according to user operating conditions to avoid "big horses pulling small cars" and improve overall energy efficiency.

Using value
Cost savings: Reduce energy consumption (accounting for 80% of PET factory operating costs) and maintenance costs, resulting in better overall lifecycle costs.
Sustainable AF Compressors: Reduce carbon emissions, comply with environmental regulations, and help businesses achieve carbon neutrality goals.
High reliability AF Compressors: Low speed, few component design reduces the risk of failure and enhances production continuity.
Difference from traditional energy-saving methods
Traditional energy conservation: focuses on improving equipment efficiency (such as variable frequency control).
AF Energy Sobriety: Integrating "less energy consumption" (source control) and "efficient energy consumption" (recycling) to form a full process energy-saving system