Sangalli, M.
Massimo Sangalli is a Lead Research Engineer at Honeywell UOP, specializing in hydroprocessing and refining conversion technologies. He has more than 25 yr of experience in the industry in various functions. He earned a PhD in chemical engineering from the University of Notre Dame, USA.
Advanced hydrocracking unit flow scheme optimization and integration approach to maximize refinery margins for a residue upgrading project
Environment & Safety
/ Process Optimization
/ Refining
/ Catalysts
/ Crude oil
/ Desulfurization
/ Diesel
/ Engineering & Design
/ Environment
/ Gasoline
/ Hydrotreating
/ Products
/ Reactors
/ Sulfur
/ Treating
/ Middle East
The integration of a solvent deasphalting and hydrocracking upgrading complex provides a favorable techno-economic return for residue upgradation at relatively lower capital expenditures vs. other alternatives for a brownfield project.
- 1
- ... 1 pages
Current Digital Edition
Sign up to Receive Our Newsletter
Latest News
- Técnicas Reunidas will carry out the engineering services to develop one of Europe’s largest green methanol plant 3/11
- ABB signs agreement with Dow as the automation partner to support Path2Zero ethylene complex in Canada 3/11
- HIF Global awarded first U.S. approval for e-Fuels design pathway 3/11
- Indonesia to build oil refineries with total capacity of 1 million bpd 3/11
- WasteFuel and ITC commence front-end engineering design on world-scale green methanol facility in Ankara, Turkey 3/11
- Crude shipments on Druzhba pipeline suspended after drone attack, Hungary says 3/11
Construction Boxscore: Project Spotlight
Project:
Long Son Petrochemicals Complex
Location:
Long Son, Vietnam
Operator:
Siam Cement Group
Cost:
$5.4 B
Capacity:
1.65 MMtpy
Completion date:
2023
Status:
Under Construction
