While "EHY2102" might look like a cryptic serial number, it is actually the code for a specific AspenTech training course
: Aspen HYSYS generates a flexible list of hypothetical components based on boiling point intervals.
Simulating low-pressure columns to separate heavy fractions.
Deactivate default unconstrained parameters. Input specific, actionable operational constraints, such as: Overhead Naphtha product Draw Rate. Kerosene Side-Stripper Steam Ratio. Main column Bottoms Product Flow Rate.
Attach across the intermediate tower zones.
The inclusion of "petroleum refining unit" and the trailing "o" (possibly meaning "optimization" or "operations") suggests that this training is not just about building a simulation—it is about . Graduates of an EHY2102-equivalent course should be able to:
EHY2102 (Aspen HYSYS Petroleum Refining: Process Modeling and Optimization) is an intermediate course by AspenTech esupport.aspentech.com/UniversityCourse?Id=a3p0B0000004YmvQAE teaching engineers how to simulate and troubleshoot refining units. It covers petroleum assays, distillation modeling, and reactor modeling for FCC, reformers, and hydrocrackers, focusing on optimizing operating points.
Positioned between the Fluid Catalytic Cracker (FCC) and the Alkylation unit, Unit O is responsible for removing undesirable components (sulfur, nitrogen, dienes) and concentrating propylene and butylenes. Without this unit, downstream catalysts in polymerization or alkylation would fail within hours.
While "EHY2102" might look like a cryptic serial number, it is actually the code for a specific AspenTech training course
: Aspen HYSYS generates a flexible list of hypothetical components based on boiling point intervals.
Simulating low-pressure columns to separate heavy fractions.
Deactivate default unconstrained parameters. Input specific, actionable operational constraints, such as: Overhead Naphtha product Draw Rate. Kerosene Side-Stripper Steam Ratio. Main column Bottoms Product Flow Rate.
Attach across the intermediate tower zones.
The inclusion of "petroleum refining unit" and the trailing "o" (possibly meaning "optimization" or "operations") suggests that this training is not just about building a simulation—it is about . Graduates of an EHY2102-equivalent course should be able to:
EHY2102 (Aspen HYSYS Petroleum Refining: Process Modeling and Optimization) is an intermediate course by AspenTech esupport.aspentech.com/UniversityCourse?Id=a3p0B0000004YmvQAE teaching engineers how to simulate and troubleshoot refining units. It covers petroleum assays, distillation modeling, and reactor modeling for FCC, reformers, and hydrocrackers, focusing on optimizing operating points.
Positioned between the Fluid Catalytic Cracker (FCC) and the Alkylation unit, Unit O is responsible for removing undesirable components (sulfur, nitrogen, dienes) and concentrating propylene and butylenes. Without this unit, downstream catalysts in polymerization or alkylation would fail within hours.
