Process Simulation & Modeling Aspen Hysys Basic

Training Mode :  Online Courses

Duration :  14 Hours   Fee :  300 USD

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

 

Who Will Benefit

  • 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 Detail

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

 

Expander Operation In Hysys To Model The Expansion Process

  • Determine the expansion efficiency and outlet temperature
  • Case study & further study

 

Heat Exchanger Operation In Hysys To Model The Heat Transfer Process

  • Problem analysis
  • Building the simulation
  • Case study & further study

 

Flash Separator Operation In Hysys To Model The Flash Separation Process

  • Problem analysis
  • Building the simulation
  • Adding a feed stream
  • Adding a compressor
  • Adding a cooler
  • Adding a flash separator
  • 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