The J.A. Becker & Söhne V 5780-4/20 NG6 FU model is a top-tier, single-stage natural gas compressor specifically designed for highly efficient and reliable gas transportation tasks. This unit provides an ideal solution for industrial applications where increasing natural gas volumetric flow rate and boosting pressure are critical. The compressor's outstanding technical parameters, such as the 20 bar maximum operating pressure and the significant 440.0 m³/h flow rate, guarantee stable and economical operation.
The V 5780-4/20 NG6 FU compressor is not just a standard solution; in line with J.A. Becker & Söhne's philosophy, it is a premium product that far exceeds average (NO 08/15 PRODUCTS) expectations.
Outstandingly Efficient Cooling: The unit's advanced cooling system ensures optimal operating temperature, minimizing energy loss and increasing system lifespan. This efficient thermal management is crucial in gas compression processes.
Fully Automatic Discharge: The fully automated pressure reduction and discharge functions ensure a safe and trouble-free shutdown, as well as optimal load management for the system. This reduces the need for human intervention and increases operational safety.
Long Maintenance Cycles: As a result of the robust design and quality components, the compressor features extremely long maintenance intervals, significantly reducing downtime and operating costs.
Premium Quality: A first-class product in every respect, guaranteeing long-term, reliable performance even in the most demanding environments.
The specifications of the V 5780-4/20 NG6 FU compressor detail the equipment's performance and capabilities:
| Parameter | Value | Note |
|---|---|---|
| Inlet pressure | 6 bar | The initial pressure for the compressor's operation. |
| Flow rate (l/min) | 7.333 l/min | Extremely high throughput capacity. |
| Flow Rate (m³/h) | 440.0 m³/h | Converted value for standard designation. |
| Maximum Operating Pressure | 20 bar | The final pressure achievable by the system. |
| Compression Stages / Cylinder | 1 / 4 | Single-stage compression, with four cylinders. |
| Electric motor power | 30 kW | The nominal power rating of the drive unit. |
| Rotational speed | 1.000 U/min | The optimal operating speed. |
The V 5780-4/20 NG6 FU is a piston compressor belonging to the NG6 series. The four-cylinder arrangement (1/4) ensures balanced operation and efficient gas transmission. The increase from an inlet pressure of 6 bar to a final pressure of 20 bar is achieved in a single step (single stage), simplifying the mechanical structure, while the 30 kW electric motor provides sufficient energy for the task.
The flow rate of 7,333 liters/minute (or 440 m³/h) means the compressor can process a large volume of natural gas, making it ideal as a booster compressor (Nachverdichter) or pressure increasing station in large industrial systems.
This compressor is excellently suited for the natural gas industry, especially where the pressure of the existing network is insufficient for further processing or transmission steps.
Natural Gas Networks: Increasing the existing line pressure to enhance transmission capacity.
Energy Facilities: Supply of gas-fired power plants or heating plants with stable, high-pressure gas.
Industrial Processes: Manufacturing processes that require precise, high-performance natural gas supply up to 20 bar pressure.
J.A. Becker & Söhne provides comprehensive documentation for the V 5780-4/20 NG6 FU compressor, aiding installation, operation, and maintenance.
Technical Data Sheet (Data Sheet): Detailed technical descriptions and sizing data.
Product Leaflet (Leaflet): Comprehensive overview of main functions and advantages.
The product is a first-class solution in every respect, prioritizing reliability and long service life. During the design of the equipment, J.A. Becker & Söhne engineers kept the highest quality standards in mind, ensuring the compressor meets modern industrial requirements. The optimal operation of the 30 kW motor at 1000 rpm guarantees energy efficiency for achieving 20 bar pressure.
