Aspen HYSYS: Introduction to Process Modeling

  • Aspen HYSYS: Introduction to Process Modeling
  • France - Paris

Aspen HYSYS: Introduction to Process Modeling

Course Category : Oil & Gas Management

A specialised foundational course designed to build practical competence in modelling and simulating oil and gas process systems using Aspen HYSYS, following flexible operational methodologies and recognised industry standards
Duration: 5 Days
Level: Beginner.

Starts On

27 - July - 2026

Ends On

31 - July - 2026

Location

France - Paris

Language

English

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View Course Introductory PDF

Targeted Audience

  • Oil and Gas Process Engineers
  • Production and Surface Facilities Engineers
  • Operations Engineers in continuous processing plants
  • Junior Design Engineers
  • Fresh graduates in petroleum or chemical engineering
  • Technical professionals transitioning into simulation roles

Targeted Skills

  • Understanding the Aspen HYSYS environment and interface
  • Configuring hydrocarbon fluid packages
  • Developing continuous process flow diagrams
  • Modelling core separation and processing units
  • Running and stabilising simulations
  • Analysing operational process results

Expected Outcomes

  • Confident use of Aspen HYSYS for oil and gas process modelling.
  • Configuring appropriate fluid packages for hydrocarbon systems.
  • Building continuous process models based on realistic operating scenarios.
  • Simulating core separation and processing units and analysing performance.
  • Establishing a practical foundation for advanced HYSYS applications.

Training Topics Index

  • Role of simulation in oil and gas operations
  • Aspen HYSYS within AspenTech solutions
  • Continuous process characteristics
  • Simulation model architecture

  • Exploring the HYSYS workspace
  • Creating process flow diagrams
  • Defining streams and unit operations
  • Model readiness verification

  • Selecting appropriate fluid packages
  • Defining hydrocarbon mixtures
  • Gas and liquid system modelling
  • Property impacts on process behaviour

  • Separators
  • Heat exchangers
  • Compressors and pumps
  • Mixing and splitting operations

  • Running and stabilising simulations
  • Reviewing operational results
  • Pressure and temperature analysis
  • Resolving convergence issues