Energy-Saving Improvement System for Industrial Furnaces

This innovative system leverages unique processing technology to fully utilize waste heat and pressure from chemical plant operations. By harnessing these resources to heat combustion-support air in cracking and large negative pressure heating furnaces, it operates without consuming external energy. This capability significantly reduces fuel consumption by 1.5% to 5% and lowers carbon emissions, making it a proven solution in the petrochemical industry.

Technical Features

Efficient Waste Heat Utilization

The system selects non-usable heat resources, such as low-pressure steam condensate, industrial wastewater, and boiler waste, as heating media. This approach maximizes the use of available waste heat for energy conservation.

Bidirectional Energy Savings

It offers dual benefits by heating air for cracking furnace devices using waste heat, while eliminating the need for secondary energy consumption to cool down this waste heat, enhancing overall efficiency.

Absolute Energy Savings

The system operates effectively without external power, absorbing waste heat through the reserved negative pressure in the gas circuit, and transferring waste heat via the reserved pressure in the liquid circuit.

Enhanced Flexibility

Designed for flexibility, the system operates without impacting the normal function of existing devices. It is user-friendly, easy to maintain, and boasts a long service life, providing sustainable energy-saving benefits.

Applications

Trusted by Leading Enterprises

The system is successfully implemented in prominent Chinese petrochemical companies, demonstrating its effectiveness and reliability in real-world industrial settings.