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BOOSTER COMPRESSOR SKID PACKAGES

BOOSTER COMPRESSOR SKID PACKAGES

Complete turnkey systems for providing compressed air or gas to businesses. Designed for the generation and treatment of compressed air and a variety of compressed gases, including natural gas, related petroleum gas, hydrogen-bearing gases, nitrogen, and other process gases. The plants are completely automated.

CAPACITY

up to 25,000 m³/h

PRESSURE 

up to 40 MPa

WARM UP PERIOD

up to 20 minutes

OPERATING TEMPERATURE

–50 to +40 °C

Full turnkey systems for supplying businesses with compressed air or gas. All complexes are completely adapted to the customer's technological and operational requirements. Booster compressor skid packages are intended for the production and treatment of compressed air and a variety of compressed gases, including natural gas, related petroleum gas, hydrogen-bearing gases, nitrogen, and other process gases. Customers can create and treat the aforementioned gases in-house using high-tech equipment tailored to their specific needs. Compressor-based plants are designed to take into account the feed gas composition, operating conditions, specialized application, and other variables. The details of industrial procedures are also taken into consideration.

PRODUCT IMAGES

"Every plant is built around a screw-type or reciprocating compressor. On request, the plants can be built in a containerized or modular configuration. Our customers will not require any additional maintenance for the compressor plant because the complexes are completely automated and equipped with all necessary safety systems. No permanent staffing is required.
 

Aegis projects technology pvt ltd provides complete manufacturing, installation, and maintenance services for booster compressor skid packages."

PRODUCT DESIGN OPTIONS 

Capacity: up to 25,000

Pressure: up to 40MPa

Operating temperature:−50 to +40°C

booster compressor skid package

Convenience for Design Organizations

  1. Developing flowcharts

  2. Calculations include gas pulsation analysis (acoustic analysis), vibration analysis, torsional vibration analysis, and gas dynamic design of pipework.

  3. Engineering and creation of documentation (design, operational, etc.)

  4. Development of plant operation algorithms

  5. Creation of a control and monitoring system

Ease of Use

  1. The containerized modules' design allows for easy plant maintenance access (fitted with a swing gate and adequately broad corridors).

  2. Compressor plants are designed with the goal of requiring as little human intervention as possible during operation. No permanent staffing is required.

  3. The equipment requires minimal maintenance (standard maintenance as advised by the core process equipment manufacturers).

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