Process Dynamic Simulation For Chemical Engineering In Aspen Hysys
| Start Date | End Date | Venue | Fees (US $) | ||
|---|---|---|---|---|---|
| Process Dynamic Simulation For Chemical Engineering In Aspen Hysys | 16 Nov 2025 | 20 Nov 2025 | Riyadh, KSA | $ 3,900 | Register |
Process Dynamic Simulation For Chemical Engineering In Aspen Hysys
| Start Date | End Date | Venue | Fees (US $) | |
|---|---|---|---|---|
| Process Dynamic Simulation For Chemical Engineering In Aspen Hysys | 16 Nov 2025 | 20 Nov 2025 | Riyadh, KSA | $ 3,900 |
Introduction
Objectives
- Learn to build, navigate and optimize process simulations using Aspen HYSYS
- Learn the efficient use of different HYSYS functions to build steady state process simulations
Training Methodology
The training methodology is interactive with group exercises and is suitable for all employees involved in functions management. The pace and level of the training workshop is customized to the understanding of the delegates. Ongoing back-up and support is available after the training on request to the supplier, and the training course is also available for in-house presentation as well as for “Competency Transfer”.
Who Should Attend?
- New engineering graduates/technologists who will be using Aspen HYSYS in their daily work
- Process engineers doing process design and optimization projects and studies
- Plant engineers checking plant performance under different operating conditions
- R&D engineers and researchers using Aspen HYSYS for process synthesis
Course Outline
Starting with HYSYS
- Creating A New Simulation
- Simulation Basis Manager
- Adding Components to the Simulation
- Selecting A Fluids Package
- Enter Simulation Environment
- Adding Material Streams
Case Study
Equations of State
- Equations of State – Mathematical Formulations
- Determine the specific volume of a pure component or a mixture with HYSYS
- Compare the results obtained with different EOS Preview the result using Workbook
- Analyze the property using Case Studies
Pump operation in HYSYS to model the pumping process
- Connect streams to unit operations
- Determine the pump efficiency and outlet temperature
- Adding Unit Operations
- Connecting unit operation with Streams
- Case Study & Further Study
Compressor operation in HYSYS to model the compressing process
- Define a new component using hypothetical
- Determine the compressor efficiency and outlet temperature
- Case Study & Further Study
Partial oxidation reaction of methane to produce hydrogen
- Develop a model that represents partial oxidation of methane to produce hydrogen
- Simulate conversion reactor and reactions
- Add the reactions and reaction sets
- Attach reaction sets to the fluid package
- Making Sequential Reactions
- Case Study
Develop a model that represents the water gas shift reaction
- Simulate equilibrium reactor and reactions in HYSYS
- Re-add the reactions and reaction sets
- Attach reaction sets to the fluid package
- Print Stream and Workbook Datasheets
- Problem Analysis & a case study
Production of propylene glycol
- Simulate continuously-stirred-tank reactor and reactions in HYSYS
- Set new Session Preferences
- Creating a New Unit Set
- Providing Binary Coefficients
- Defining the Reaction
- Installing the Mixer
- Installing the Reactor
- Case Study
Absorber operation in HYSYS to model the absorption process
- Problem Analysis
- Running the Simulation
- Changing Trays to Packing
- Getting the Design Parameters
- Case Study & Further Study
Recovery of (NGL) from natural gas
- Add columns using the Input Experts
- Add extra specifications to columns
- De-Methanizer Operation
- De-Ethanizer Operation
- De-Propanizer Operation
- Adding a Valve
- Case Study
Accreditation
Related Courses
2026 IFM Training Plan
IFM Corporate Profile
Laboratory Systems ISO17025 Consulting
Competency Solutions Brochure
Hotline: +9712 -6986000
info@ifmconsultants.com
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Hotline: +9712 -6986000
info@ifmconsultants.com