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As a chemical engineer, before you can make proposed process alterations you must consider the potential investment return.Yet, typically this involves detailed simulations and design work. Join process synthesis and integration experts Diane Hildebrandt and Bilal Patel and learn novel design and analysis techniques you can implement early on to avoid costly revisions to processes while reducing material and energy consumption and carbon dioxide emissions.
The design and analysis of chemical production processes – a new approach
In three days, you’ll discover tools that allow you to gain insight into a process by emphasizing the unity of the process. You’ll learn how to apply mass, energy and entropy balances in an entirely new way for the synthesis of flow sheets. You’ll examine how to analyze equipment – such as reactors and distillation columns – using mass, energy and entropy balances to identify measure and reduce inefficiencies. Plus, you’ll learn how to set up and calculate performance targets for your process, such as the minimization of CO2 emissions. You’ll take home strategies you can use to gain insight into processes, establish rigorous performance targets and enhance process performance all while conserving natural resources and reducing negative environmental impact.
Learning Outcomes:
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Describe the overarching principles of integrated process synthesis.
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Apply mass, energy, and entropy balances to synthesize flow sheets.
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Measure and reduce inefficiencies in balances.
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Set up performance targets for the minimization of CO2 emissions.
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Criticize processes that fail to conserve natural.
Who Should Attend:
Professionals working with production processes in the chemical industries – including:
- Design engineers
- Developers of new processes
- Supervisors of chemical manufacturing units
- Process chemical engineers
- Chemical engineers who work with laboratory teams to develop new processes and improve existing processes
Day One
8:00 – 8:30
Registration
8:30 – 10:00
Philosophy and overview of integrated process synthesis
10:00 – 10:15
Morning Break
10:15 – Noon
Mass balance: Application to process synthesis and the process mass balance target
Noon – 1:00
Lunch Break
1:00 – 3:00
Energy balance: Application to a process and the process energy balance target
3:00 – 3:15
Afternoon Break
3:15 – 5:00
Entropy: Application of entropy to a process and entropy target
Day Two
8:00 – 10:00
Graphical representation of mass, energy and Gibbs energy constraints
10:00 – 10:15
Morning Break
10:15 – 11:00
Supplying work to a process: decomposing processes
11:00 - Noon
Adding additional work via compression
Noon – 1:00
Lunch Break
1:00 – 3:00
Separation: Defining the work of separation and determining the magnitude of the work of separation
3:00 – 3:15
Afternoon Break
3:15 – 5:00
Distillation as a heat engine
Day Three
8:30 – 10:00
Using experimental results in the early design stages to aid in synthesizing a flowsheet
10:00 – 10:15
Morning Break
10:15 – Noon
Mass, energy and work flows based on experimental results/existing flowsheet
Noon – 1:00
Lunch Break
1:00 – 3:00
Analysis of biological processes in terms of mass, energy and entropy
3:00 – 3:15
Afternoon Break
3:15 – 5:00
Calculating thermodynamic parameters of biological processes from experimental results, which can be useful for designing biological systems
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