Upcoming Training & Events
Tailored and comprehensive training designed to help you unlock the full potential of CHEMCAD's advanced process simulation software. Our specialists provide step-by-step guidance that's backed up by practical, interactive examples. We offer in-person workshops at our Houston headquarters, locations throughout the United States, as well as real-time virtual workshops.
Contact training@chemstations.com for further information or to schedule a custom team training at your location
Be sure to check back often for updates.
Course Content
Choose the workshop that best fits your interests and level of CHEMCAD experience. Our expert instructors will lead you through real-world examples, from flowsheet setup to detailed analysis of simulation results, and show you how to get the most from your CHEMCAD software. Select a course title to view a detailed syllabus.
- Overview of CHEMCAD functions
- Overview and navigation of the physical property database
- Adding a new component to the database
- Overview of thermodynamic options
- Building a flowsheet for design purposes
- Modeling an existing process
- Quantitative and qualitative use of simulation
- Using simulation for day-to-day tasks
- Using plant data in process flowsheets
- CHEMCAD for transient and static problems
- Simulation as an extension of your engineering thought process
- Modeling plant utilities (steam, process water, etc.)
- Course covers:
- Recycle loops
- Distillation
- Reactors
- Heat exchangers
- CHEMCAD controllers
- CHEMCAD plots and reports
- Solid components
- Electrolytes
- Component binary interaction parameters (BIPs)
- Component Database and Vapor-Liquid Equilibrium
- Overview of CHEMCAD functions
- Building flowsheets
- Reporting tools and data transfer with Excel
- Sensitivity analysis and optimization
- Thermodynamic models
- Recycle and convergence settings
- Controllers
- Piping networks and pressure drop calculations
- Distillation
- Batch distillation
- BIP regression
- Liquid- liquid equilibrium and extraction
- Absorption
- Electrolytes
- Solubility of salts and heat of solution
- pH calculation
- Absorption and solubility of gases
- Optimization with controllers
- Residue curve maps
- Dynamic simulation
- Excel, VBA, and VBClient applications with CHEMCAD
- Basics of dynamic models
- Piping networks in dynamic models
- PID control loops
- Viewing, plotting, and using results
- Batch processes in CC-DYNAMICS and CC-BATCH
- Basics of modeling batch processes
- Building batch process flowsheets
- Batch, semi-batch, and continuous vessels
- Specifying a vessel and its associated equipment
- Using dynamic controllers
- Batch reactors
- Regressing kinetic data for reactions
- Batch and semi-batch/continuous tank reactors
- Temperature control with jackets or coils
- Modeling batch reactors with distillation columns
- Dynamic distillation
- Basics of building dynamic distillation models
- Moving from steady state to dynamics
- Feed/process changes or disturbances
- Start-up and shutdown of a column
- Using PID controllers with distillation units
- Emergency relief
- Rating and sizing relief devices for single- and two-phase flow
- Sizing relief headers
- Investigating relief scenarios dynamically
This high-level survey of CHEMCAD's capabilities covers the following topics:
- Introduction and basic flowsheeting
- Distillation columns
- Recycle loops
- Analysis tools (sensitivity study, Excel links, etc.)
- Piping network calculations
- Creating and managing user components
- Overview of CHEMCAD functions
- Overview and navigation of the physical property database
- Building flowsheets
- Overview of thermodynamic options
- Flowsheet analysis through sensitivity studies and optimization
- Data reconciliation
- Continuous and batch distillation
- Dynamic simulation
- Reactors
- Heat exchangers
- Controllers
- Azeotropic behavior and separation of azeotropic mixtures
- Workshop homogeneous and heterogeneous azeotropic distillation
- Physical property sources, estimation (pure component and mixture behavior), experimental determination
- Solid-liquid equilibria and crystallization
- Binary and ternary liquid-liquid equilibria
- Extraction basics (Kremser, Hunter-Nash)
- Extraction columns, balance lines
- Combination of extraction and distillation
- Electrolyte systems
- Workshop electrolyte mixtures (gas sweetening)
-
Reaction kinetics and reactive distillation
- Piping networks, pumps, and valves
-
Two-phase flow and emergency relief valves
-
META UnitOp (liquid ring pump example)
-
User UnitOp – Excel unit with mapping
- Modeling entire existing processes
- Avoiding common pitfalls in simulation
- Quantitative and qualitative use of simulation
- Manipulating thermodynamics to fit plant data
- Dealing with "unruly" plant data
- Using plant data in process flowsheets
- Simulation as an extension of your engineering thought process
- Using a laboratory to verify and investigate thermodynamics
- Course covers:
- Recycle loops
- Distillation (continuous and batch)
- Advanced heat exchanger topics
- Advanced controller topics
- Finding and breaking azeotropes
- Batch processes
- Batch-to-continuous processes
- Advanced electrolyte topics
- Customization of CHEMCAD using Microsoft Excel® and Visual Basic for Applications® (VBA)
- Using a worksheet as a front end for CHEMCAD
- Customizing UnitOps and calculations
- Simple data connection to an external workbook
- Examination of real equipment selection based on process performance
- Sizing of pipes, orifices, control valves, columns (packed and tray)
- Mass transfer calculation for sized packed columns
- Heat exchanger sizing using CC-THERM
- Two-phase vessel sizing
- Nodes to model real hydraulics
- Special calculation methods to help simulations converge:
- Stream reference modules
- Controllers (feed-forward and feedback)
- UnitOp sequence groups