Skip to main content

MCO-I to deliver equipment for Chevron Phillips Chemicals

Published by , Editorial Assistant
Hydrocarbon Engineering,


MHI Compressor International Corp. (MCO-I) has secured a contract to deliver compressor train equipment for Chevron Phillips Chemicals new propylene unit in Texas. The contract scope encompasses the supply of an API 612 steam turbine driving an API 617 heat pump compressor and all associated compressor train auxiliary equipment for Chevron Phillips Chemical’s 1 billion lbs / yr C3 splitter unit. The asset will convert a refinery grade mixture of propylene and propane into a high purity propylene product.

MCO-I’s compressor train manufacturing, assembly, testing and packaging will be performed by its Hiroshima, Japan, and Pearland, Texas, facilities.

Michael McCurry, Account Executive, MCO-I, said: “The trust we earn from our customers is a result of delivering valuable solutions time and time again. MCO-I has a strong relationship with Chevron Phillips, having supplied many compressor trains to them over the past several years, followed up with superior service after equipment installation. This latest order further establishes MCO-I as a premier supplier for delivering state-of-the-art compression systems that help safeguard petrochemical plant reliability and availability.”

 

Read the article online at: https://www.hydrocarbonengineering.com/petrochemicals/30032022/mco-i-to-deliver-equipment-for-chevron-phillips-chemicals/

You might also like

The Hydrocarbon Engineering Podcast - Education and training for every phase of the insulating system design process

In this episode of the Hydrocarbon Engineering Podcast, Brandon Stambaugh, Owens Corning Director for Technical Services, joins us to discuss engineers’ demand for education and training to support the critical phases that affect the performance and longevity of insulating systems.

Tune in to the Hydrocarbon Engineering Podcast on your favourite podcast app today.

Apple Podcasts  Spotify Podcasts  YouTube

 
 

Embed article link: (copy the HTML code below):