Nash Liquid-Ring Vacuum Pumps for Carbon Capture

Reliable and Efficient CO2 Solutions

Engineered to Order Vacuum System for Carbon Capture

This vacuum system, featuring a 2BE1-series vacuum pump, is designed specifically to enhance carbon capture processes, playing a crucial role in reducing industrial CO2 emissions. The stainless steel pump with mechanical seals ensures leak-free operation, essential for handling gases like CO2 safely and efficiently. Driven by a 37 kW motor with frequency control, the system adjusts power usage based on process demand, optimizing energy consumption and reducing operational costs. Its robust design and smart power management make it ideal for carbon capture applications, enabling a cleaner, more sustainable approach to CO2 management.

Key Features

Carbon Information

  • High Capacity and Performance: Designed for CO2 capture processes, offering a capacity range of 766-908 m³/hr, supported by VFD to optimize power use. Operates efficiently with an inlet pressure of 615 mbara, discharge pressure of 1050 mbara, and a 37 kW motor.
  • Advanced Engineering: Features a simplified design with only one moving part-the rotor and shaft assembly-for minimal maintenance and reliable operation.
  • Safety and Compliance: Equipped with mechanical shaft sealing to eliminate leakage, ensuring safe operation. Includes CE-Marking, General Arrangement, manuals, test certificates, and start-up procedures to meet industry standards and support clients.
  • Optimized Efficiency: Variable Frequency Drive (VFD) technology adjusts power use based on demand, enhancing energy efficiency.
  • Durable Materials: Constructed with stainless steel for high durability and resistance to aggressive or corrosive substances.

Benefits

This vacuum system boosts operational efficiency by utilizing a variable frequency drive (VFD), which adjusts power usage to match the actual process demand. This smart power management minimizes energy consumption, reduces operational costs, and extends the lifespan of the equipment, ensuring reliable and efficient performance.

carbon-capture-vacuum-system-benefits

Carbon Capture

Technical specifications

  • Components of the Typical Package: Includes a 2BE1-series vacuum pump, electric motor, gas/liquid separator, cooler, valves, and instruments for temperature and pressure monitoring.
  • Performance Metrics:
    - Capacity range of 766-908 m³/hr, thanks to the VFD (Variable Frequency Drive).
    - Inlet pressure: 615 mbara, Discharge pressure: 1050 mbara.
    - Power requirement: 37 kW motor for efficient operation.
  • Materials of Construction: Stainless steel pump with mechanical shaft sealing for enhanced durability and corrosion resistance.
  • Compliance: Engineered to meet industry standards, ensuring reliable performance in CO2 capture and other demanding applications.

This configuration provides a versatile and efficient solution for optimizing vacuum processes in various industrial settings.

Application

Carbon application

  • Versatility Across Industries: Widely used in general, process, chemical, petrochemical, water treatment, food and beverage, and power generation sectors.
  • Broad Operating Range: Suitable for applications such as gas compression, vacuum filtration, moisture removal, degassing, distillation, and solvent recovery.
  • Self-Priming Capability: Efficient startup even at deeper vacuum levels, ideal for handling wet or contaminated gases.
  • Material Options for Compatibility: Available in various materials to ensure compatibility with aggressive or corrosive media.
  • Proven Reliability: As a popular liquid-ring pump series, the 2BE1 is trusted for dependable performance and adaptability across complex industrial processes. 

carbon-capture-vacuum-system-case-study

Read Our Case Study

Unlock the Power of Carbon Capture: How Nash Liquid-Ring Vacuum Pumps Are Driving a Greener Future

Discover how Nash's cutting-edge liquid-ring vacuum pumps are transforming carbon capture for Bright Renewables, enabling significant CO2 emission reductions and pushing the boundaries of sustainability.

Download The Case Study Now