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Chemical Engineering Guy

This

It is focused on the "BOOTCAMP" idea, in which you will learn via workshops and case studies, minimizing theory to maximize learning.

You will learn about:

  • Better Flowsheet manipulation and techniques

  • Understand Property Method Selection and its effects on simulation results

  • More than 15 Unit Operations that can be used in any Industry

  • Model Analysis Tools required for process design

  • Reporting Relevant Results Plot relevant data

  • Analysis & Optimization of Chemical Plants

Read more

This

It is focused on the "BOOTCAMP" idea, in which you will learn via workshops and case studies, minimizing theory to maximize learning.

You will learn about:

  • Better Flowsheet manipulation and techniques

  • Understand Property Method Selection and its effects on simulation results

  • More than 15 Unit Operations that can be used in any Industry

  • Model Analysis Tools required for process design

  • Reporting Relevant Results Plot relevant data

  • Analysis & Optimization of Chemical Plants

At the end of this Bootcamp, you will be able to model more industrial processes, feel confident when modeling new proceses as well as applying what you have learnt to other industries.

Enroll now

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What's inside

Learning objectives

  • Learn about aspen plus and its use in the industry
  • Basics of the physical property environment
  • Presenting results: plotting, tables and results
  • Model several chemical process
  • Use a variety of unit operations
  • Converge and debugging
  • Plant utilities & economics

Syllabus

Introduction
Welcome to the Bootcamp!
Course Index
Course Objectives
Read more
Requirements
Recommended Public
About the Bootcamp Methodology
Join the Aspen Plus & HYSYS Forum (Unofficial)
Resources
Study Cases - Chemical Processes
Case Study 1 - Hydrocarbon System (Learning Outcomes)
Case Study 1 - Hydrocarbon System (Problem Statement)
Case Study 1 - Hydrocarbon System (Flowsheeting)
Case Study 2 - BTX Separation (Learning Outcomes)
Case Study 2 - BTX Separation (Problem Statement)
Case Study 2 - BTX Separation (Flowsheeting)
Case Study 3 - Methanol Synthesis (Learning Outcomes)
Case Study 3 - Methanol Synthesis (Problem Statement)
Case Study 3 - Methanol Synthesis (Flowsheeting)
Case Study 4 - Acetaldehyde Plant (Flowsheeting)
Case Study 4 - Acetaldehyde Plant (Problem Statement)
Case Study 4 - Acetaldehyde Plant (Learning outcomes)
Case Studies - Process Analysis
Case Study 5 - Dimethyl Ether Production from CO2 and H2 (Learning Outcomes)
Case Study 5 - Dimethyl Ether Production from CO2 and H2 (Problem Statement)
Case Study 5 - Dimethyl Ether Production from CO2 and H2 (Flowsheeting)
Case Study 6 - Ammonia in Cryogenics (Learning Outcomes)
Case Study 6 - Ammonia in Cryogenics (Problem Statement)
Case Study 6 - Ammonia in Cryogenics (Flowsheeting)
Case Study 7 - Cumene Production (Learning Outcomes)
Case Study 7 - Cumene Production (Problem Statement)
Case Study 7 - Cumene Production (Flowsheeting)
Case Studies - Rigorous Unit Operations
Case Study 8 - Rigurous Heat Exchangers (Learning Outcomes)
Case Study 8 - Rigurous Heat Exchangers (Problem Statement)
Case Study 8 - Rigurous Heat Exchangers (Flowsheeting)
Case Study 9 - RadFrac in Absorption with Column Internals (Learning Outcomes)
Case Study 9 - RadFrac in Absorption with Column Internals (Problem Statement)
Case Study 9 - RadFrac in Absorption with Column Internals (Flowsheeting)
Case Study 10 - RadFrac in Distillation (Learning Outcomes)
Case Study 10 - Distillation Column Optimization (Problem Statement)
Case Study 10 - RadFrac in Distillation (Flowsheeting)
Case Studies - Plant & Process Economy
Case Study 11 - Plant Economy & Utilities (Learning Outcomes)
Case Study 11 - Plant Economy & Utilities (Problem Statement)
Case Study 11 - Plant Economy & Utilities (Flowsheeting)
Case Study 12 - Plant Dynamics (Learning Outcomes)
Case Study 12 - Plant Dynamics (Problem Statement)
Case Study 12 - Plant Dynamics (Flowsheeting)
Conclusion
BONUS - Continue Your Training!

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Teaches Aspen Plus, which is standard in the chemical industry
Develops process modeling skills, which are core for chemical engineers
Taught by Chemical Engineering Guy, who are recognized for their expertise in Aspen Plus
Provides hands-on experience through workshops and case studies
Covers multiple unit operations, which allows learners to apply skills to various chemical processes
Emphasizes application of Aspen Plus to industrial processes

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in BOOTCAMP - Aspen Plus with Case Studies with these activities:
Review Process Flow Diagrams
Reviewing process flow diagrams will help you understand the overall process and identify key unit operations.
Browse courses on Process Flow Diagrams
Show steps
Find a Mentor in the Chemical Industry
Finding a mentor can provide you with valuable guidance and support as you progress in your studies.
Show steps
  • Identify potential mentors in your field of interest.
  • Reach out to potential mentors and introduce yourself.
Attend a Study Group on Heat Exchanger Design
Participating in a study group will allow you to discuss concepts with your peers and get different perspectives on heat exchanger design.
Show steps
Four other activities
Expand to see all activities and additional details
Show all seven activities
Use Aspen Plus to Simulate a Distillation Column
Simulating a distillation column in Aspen Plus will provide you with hands-on experience in using process simulation software.
Show steps
  • Create a new Aspen Plus project and import the process flow diagram.
  • Add a distillation column unit operation and specify the operating conditions.
  • Run the simulation and analyze the results.
Develop a Process Design for a Chemical Plant
Developing a process design will challenge you to apply the concepts you have learned in the course to a real-world scenario.
Show steps
  • Define the project scope and objectives.
  • Research and select appropriate technologies.
  • Create a process flow diagram and equipment list.
  • Estimate the capital and operating costs.
Participate in a Chemical Engineering Design Competition
Participating in a design competition will provide you with an opportunity to test your skills and knowledge against other students.
Show steps
Build a Pilot Plant for a New Chemical Process
Building a pilot plant will give you hands-on experience in designing, constructing, and operating a chemical process.
Show steps

Career center

Learners who complete BOOTCAMP - Aspen Plus with Case Studies will develop knowledge and skills that may be useful to these careers:
Chemical Engineer
Chemical Engineers design chemical plants and processes that convert raw materials into useful products. They use their knowledge of chemistry, physics, and mathematics to develop and optimize production processes. The BOOTCAMP - Aspen Plus with Case Studies course provides Chemical Engineers with the skills they need to use Aspen Plus, a powerful software tool for chemical process simulation. This course teaches how to use Aspen Plus to model and analyze chemical processes, and how to optimize these processes for efficiency and profitability.
Process Engineer
Process Engineers design, develop, and improve chemical processes. They use their knowledge of chemistry, physics, and mathematics to develop and optimize production processes. The BOOTCAMP - Aspen Plus with Case Studies course provides Process Engineers with the skills they need to use Aspen Plus, a powerful software tool for chemical process simulation. This course teaches how to use Aspen Plus to model and analyze chemical processes, and how to optimize these processes for efficiency and profitability.
Petroleum Engineer
Petroleum Engineers design and develop methods for extracting oil and gas from the earth. They use their knowledge of geology, physics, and mathematics to develop and optimize production methods. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Petroleum Engineers who want to learn how to use Aspen Plus to model and analyze petroleum production processes.
Environmental Engineer
Environmental Engineers design and develop solutions to environmental problems. They use their knowledge of chemistry, physics, and biology to develop and implement solutions to problems such as pollution and climate change. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Environmental Engineers who want to learn how to use Aspen Plus to model and analyze environmental processes.
Materials Scientist
Materials Scientists develop new materials and improve existing materials for use in a variety of applications. They use their knowledge of chemistry, physics, and engineering to develop and test new materials. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Materials Scientists who want to learn how to use Aspen Plus to model and analyze the properties of materials.
Nuclear Engineer
Nuclear Engineers design and develop nuclear power plants and other nuclear facilities. They use their knowledge of nuclear physics, mathematics, and engineering to develop and optimize nuclear systems. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Nuclear Engineers who want to learn how to use Aspen Plus to model and analyze nuclear processes.
Mechanical Engineer
Mechanical Engineers design and develop machines and other mechanical systems. They use their knowledge of physics, mathematics, and engineering to develop and optimize mechanical systems. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Mechanical Engineers who want to learn how to use Aspen Plus to model and analyze mechanical systems.
Electrical Engineer
Electrical Engineers design and develop electrical systems and components. They use their knowledge of physics, mathematics, and engineering to develop and optimize electrical systems. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Electrical Engineers who want to learn how to use Aspen Plus to model and analyze electrical systems.
Civil Engineer
Civil Engineers design and develop civil infrastructure systems, such as roads, bridges, and buildings. They use their knowledge of physics, mathematics, and engineering to develop and optimize civil infrastructure systems. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Civil Engineers who want to learn how to use Aspen Plus to model and analyze civil infrastructure systems.
Software Engineer
Software Engineers design and develop software applications. They use their knowledge of computer science and engineering to develop and optimize software applications. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Software Engineers who want to learn how to use Aspen Plus to model and analyze software systems.
Data Scientist
Data Scientists collect, analyze, and interpret data to solve problems and make decisions. They use their knowledge of mathematics, statistics, and computer science to develop and implement data science solutions. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Data Scientists who want to learn how to use Aspen Plus to model and analyze data.
Financial Analyst
Financial Analysts analyze financial data to make investment recommendations. They use their knowledge of finance, accounting, and economics to develop and implement investment strategies. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Financial Analysts who want to learn how to use Aspen Plus to model and analyze financial data.
Management Consultant
Management Consultants help organizations improve their performance. They use their knowledge of business, economics, and management to develop and implement solutions to problems. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Management Consultants who want to learn how to use Aspen Plus to model and analyze business processes.
Sales Engineer
Sales Engineers sell technical products and services. They use their knowledge of engineering and business to develop and implement sales strategies. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Sales Engineers who want to learn how to use Aspen Plus to model and analyze the performance of technical products and services.
Technical Writer
Technical Writers write technical documentation, such as manuals, reports, and specifications. They use their knowledge of technical subjects and writing to develop and implement documentation strategies. The BOOTCAMP - Aspen Plus with Case Studies course may be useful for Technical Writers who want to learn how to use Aspen Plus to model and analyze technical systems.

Reading list

We've selected eight books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in BOOTCAMP - Aspen Plus with Case Studies.
Provides a comprehensive overview of the principles and practice of distillation. It covers a wide range of topics, including the design, operation, and control of distillation columns.
Provides a comprehensive overview of the principles of heat transfer. It covers a wide range of topics, including conduction, convection, and radiation.
Provides a comprehensive overview of the principles of chemical reaction engineering. It covers a wide range of topics, including the kinetics of chemical reactions, the design of chemical reactors, and the control of chemical processes.
Comprehensive reference for chemical engineers. It covers a wide range of topics, including the physical properties of chemicals, the design of chemical processes, and the operation of chemical plants.
Provides a collection of rules of thumb for chemical engineers. These rules of thumb can be used to quickly estimate the values of various process parameters.
Provides a comprehensive overview of the principles of chemical engineering design. It covers a wide range of topics, including the design of chemical processes, the selection of materials, and the operation of chemical plants.
Provides a comprehensive overview of the principles of fluid mechanics. It covers a wide range of topics, including the flow of fluids, the design of pumps and pipelines, and the operation of fluid processing equipment.
Provides a comprehensive overview of the principles of transport phenomena. It covers a wide range of topics, including the transport of heat, mass, and momentum.

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