We engineered the AeroBlock™ main air compressor to improve operational efficiency while reducing overall cost and delivery time in industrial air separation.
Designed with the industry-leading integral-gear compression technology, AeroBlock (TM) offers a standardized design with aerodynamics that can be tailored to specific process requirements.
Reduced cost results from optimized design and improved machine layout
Improved efficiency comes from proven integral-gear technology and seamless interaction of high performance
AeroBlock™ is manufactured in multiple cutting-edge facilities around the globe, staying close to customers and promoting faster turnaround time on orders.
Our global service network of 120+ engineers provide comprehensive aftermarket support of turbomachinery.
AeroBlock's lube oil system with reverse rotation protection manifold
AeroBlock ™ standardized main air compressor boosts energy efficiency by up to 2% compared to previous solutions. The new design lowers the motor power required, in turn reducing compressor lifecycle operation cost for the customer, leading to energy cost savings of about 300 000 USD over the compressor’s lifespan.
The standardized design of AeroBlock™ achieves significant savings by reducing CAPEX and improves efficiency to reduce OPEX as well. This adds to the reliability already achieved by the integral-gear (IG) technology at the core of the compressor. The multi-speed capability of IG technology allows each high-speed rotor to run at the optimum speed, giving the best efficiency possible.
Maintains high reliability in a standardized design. Customers can select additional instrumentation as an option for lube oil systems, process gas, and seal support systems to best fit their needs.
The patent-pending integrated design offers reverse rotation protection as standard. It brings simplicity by reducing the number of components, and improves reliability.
The easily serviced and compact design works with the integrated manifold to reduce the lube system footprint.
Taxa de fluxo de entrada efetiva |
37 000 m³/h - 54 000 m³/h 21 777 cfm - 31 783 cfm |
Pressão máxima de descarga |
13 bar(a) 188 psia |
Pressão máxima de sucção |
1,05 bar(a) 15,2 psia |
Potência necessária HP |
6 543 HP |
Tipos de vedação |
labyrinth, carbon ring, dry-gas seal |
Fases (mín./máx.) |
2 - 4 |
Temperatura de sucção |
-29 °C - 50 °C -20 °F - 122 °F |