20+ Best Online Chemical Engineering Courses Available in 2023

Have you been searching for some online chemical engineering courses in 2023 to advance your knowledge in chemical engineering? Then search no more; you have just landed on the right blog post.

Notwithstanding, I have done a thorough research and have curated some of the best online chemical engineering courses from top MOOC platforms online in this blog post. To give you a wide variety of options to choose from.

So relax, be rest assured that you are getting the best courses.

Do you know? Chemical engineers decode molecular knowledge in order to create new products and processes in cutting-edge industries such as nanotechnology and biotechnology, as well as conventional fields of inquiry.

Also, chemical engineers work in a variety of fields and develop cutting-edge solutions to pressing industrial and societal issues. They work on developing renewable and efficient energy systems, progressing in the life sciences, designing and manufacturing pharmaceuticals, and discovering and developing new materials.

If you wish to take your engineering knowledge up a notch, I suggest you take one of the online chemical engineering degree courses listed below and learn.

Also, it is worth noting that these online chemical engineering courses are suitable for both beginners, intermediate, and experts.

Additionally, we will take a look at a brief overview of some of the online chemical engineering courses and their stats which made them suitable for you.

Lastly, we are not ranking these courses in any other. As I said earlier, they were selected from top MOOC platforms online.

Read More: 11+ Best AutoCAD Classes & Courses Online with Certification 2023

Best Online Chemical Engineering Courses Available in 2023.

Below are some of the chemical engineering online free courses available in 2023.

• Chemical Engineering Fundamentals [Udemy]
• Introduction to Heat Transfer Engineering – RAHHT1 Rahsoft [Udemy]
• Transient State Mass Balance [Udemy]
• Introduction to Mass Transfer Operations [Udemy]
• Binary Distillation for Process & Chemical Engineering [Udemy]
• Petrochemicals – Complete Guide to Process & Industry [Udemy]
• Flash Distillation in Chemical & Process Engineering [Udemy]
• Unit Operations in Chemical Engineering [Udemy]
• Aspen Plus – Basic Process Modeling [Udemy]
• Gas Absorption & Stripping in Chemical Engineering [Udemy]
• Introduction to Petroleum Engineering [Coursera]
• Materials Science: 10 Things Every Engineer Should Know [Coursera]
• Exploring Renewable Energy Schemes [Coursera]
• Material Processing [Coursera]
• Energy Production, Distribution & Safety [Coursera]
• Construction and operation of pumps for nuclear power plants [Coursera]
• Statistical Thermodynamics [Coursera]
• Safety in the Utility Industry [Coursera]
• The technology of modern composite materials with carbon fillers [Coursera]
• Introduction to High-Throughput Materials Development [Coursera]
• Ash-Related Operational Challenges in Energy Utilization of Sustainable Fuels

Below is a brief overview of some of the best online chemical engineering courses and their stats, making them suitable for you.

#1. Chemical Engineering Fundamentals [Udemy]

This course teaches the Core elements of Chemical/Process Engineering by working on specific topics such as:

• Introduction to Chemical/Process Engineering;
• Process Engineering Drawings;
• Mixture Properties;
• Material and Energy Balance

Painstakingly, their professional development team created this course to directly addresses the subject.

In this course, you will gain an understanding of the fundamental elements of Chemical/Process Engineering in this section. Before going through the course, why not learn more about the roles of Chemical Engineers?

Interestingly, chemical engineers convert laboratory processes into functional applications for commercial product development, then work to sustain and refine those processes.

Also, they depend on engineering’s three key pillars: math, physics, and chemistry (though biology is playing an increasing role).

Most noteworthy, chemical engineers’ primary responsibilities include designing and troubleshooting processes for the manufacture of chemicals, oils, foods, pharmaceuticals, and biologicals, to name a few.

Large-scale manufacturing plants also use them to increase efficiency and product quality while lowering costs.

Additionally, chemical engineers work in factories, testing labs, and pilot plant facilities. They operate close to large-scale manufacturing equipment located indoors and outdoors, and they are often expected to wear personal protective equipment such as hard hats, goggles, and steel-toed shoes.

Key Ups

• 3 hours of on-demand video
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the link below to get the course!

Get The Course Here

#2. Introduction to Heat Transfer Engineering – RAHHT1 Rahsoft [Udemy]

Fundamental principles of heat transfer radiation for industrial heat transfer online Chemical Engineering course.

Heat Transfer is a foundational course for all university students pursuing a degree in chemical engineering, mechanical engineering, or materials engineering.

This course, which is usually taken in the first semester of a bachelor’s degree program, is divided into two parts: heat transfer 1 and 2, each worth three units.

Any student studying the fields described should have a firm grasp of the principles of heat transfer and a thorough understanding of heat transfer mechanisms in various situations.

However, heat transfer is not only one of those majors’ core courses; a solid foundation in it can also help students grasp the concepts of future theory courses like mass transfer and unit service.

Heat Transfer 1 (RAHHT1) is a crash course that will help you down the last few concepts. We planned this course in less than 7 hours and covered the most relevant topics in heat transfer in that period.

Furthermore, we’ve included the most important formulas and commonly used equations so you won’t get lost in your textbook’s many formulas. We have also attempted to use sample examples to demonstrate how and when to use the formulas and which ones to use when.

This course would be extremely beneficial to those needing a concise and well-organized resource to review their studies before class or college exams.

Key Ups!

• 6 hours of on-demand video
• 1 article
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the image below to get the course!

#3. Transient State Mass Balance [Udemy]

Learn how to model Mass Balances in Transient states in different Chemical Processes.

Welcome to the Transient State Mass Balance Course!

This course was created with general engineering fields in mind. Chemical and process engineers will find it extremely useful in their studies, but mechanical and industrial engineers will also find it fascinating!

By the end of this course, you will learn the following:

• Basic Theory of Steady and Transient State
• How to Account for the Accumulation of a System
• Identify Transient State Processes
• Model Transient State Processes with and without Chemical Reactions
• An insight on how to model Transient State with Software

By the end of the course, you will be able to:

• Solve Mass Balance Problems of many real-life Chemical Processes
• Solve many Transient State problems in engineering

The course is structured as follows:

• 3 Sections of Theory and Applied Examples (Video-Based!)
• 9 Mass Balance Solved Exercises (Put the theory into practice!)
• 2 Quizzes for Learning Review
• Support on the Discussion Board!

Take the course, and you’ll have a leg up on your peers in terms of getting a higher score in your university classes!

Key Ups

• 4.5 hours of on-demand video
• 1 article
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the image below to get the course!

Read Also: 17+ Best Online Baking Classes & Courses with Certificate 2023

#4. Introduction to Mass Transfer Operations [Udemy]

This is an Overview of the Most Common Industrial Mass Transfer Operations & Process Separation Technologies.

Notwithstanding, the instructor will address the most basic processes involved in Mass Transfer Operations in this mini-course.

Although, this is a summary of the various procedures, techniques, and units used in the industry. This is primarily an introductory course designed to help you read, comprehend, and understand the approach to separation processes involving mass transfer phenomena.

It is an excellent course before any Mass Transfer Processor Unit Operation Course, such as Distillations, Extractions, Lixiviation, Membranes, Absorption, etc.

This course is extremely recommended if you will continue with the following:

• Flash Distillation, Simple Distillation, Batch Distillation
• Gas Absorption, Desorption & Stripping
• Binary Distillation, Fractional Distillation
• Scrubbers, Gas Treating
• Sprayers / Spray Towers
• Bubble Columns / Sparged Vessels
• Agitation Vessels
• Packed Towers, Tray Towers

However, this is a very theoretical course; there will be some calculations and drills, but the emphasis will be on theoretical principles.

Also, at the end of the course, you will be able to comprehend the principles of mass transfer operations. You’ll be able to tell which Mass Transfer Unit Operations are active. You’ll also be able to verify the type of separation technology used.

Key Ups

• 13 hours of on-demand video
• 28 articles
• 21 downloadable resources
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the link below to get the course!

Get The Course Here

#5. Binary Distillation for Process & Chemical Engineering [Udemy]

Model Continuous Distillation Equipment in the Industry as well as Flash & Batch Separation Processes in Binary Systems

Binary Distillation is one of the most important Mass Transfer Operations used extensively in the Chemical industry.

Similarly, you will understand the concept behind Gas-Gas, Liquid-Liquid, and Gas-Liquid mass transfer interaction. Also, you will understand and model Distillation Columns, Flashes, Batch Distillation, Tray Columns, Packed Columns, etc…

Interestingly, this course will cover topics such as:

• REVIEW: Of Mass Transfer Basics (Equilibrium VLE Diagrams, Volatility, Raoult’s Law, Azeotropes, etc..)
• Distillation Theory
• Application of Distillation in the Industry
• Counter-Current Operation
• Several types of equipment to Carry Gas-Liquid Operations
• Bubble, Spray, Packed, and Tray Column equipment
• Flash Distillation & Flash Drums Design
• Design & Operation of Tray Columns
• Number of Ideal Stages: McCabe Thiele Method & Ponchon Savarit Method
• Recycle
• Condenser types: partial, total
• Pressure drop due to trays
• Design & Operation of Packed Columns

However, at the end of the course, you’ll learn about the mass transfer mechanisms and processes that underpin Binary Distillation in Flash, Continuous, and Batch Processes.

Also, you’ll be able to proceed with a Multi-Component Distillation, Reactive Distillation, and Azeotropic Distillation course and more Mass Transfer Unit Operation and Separation Processes courses.

Key Ups

• 4 hours of on-demand video
• 1 article
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the image below to get the course!

#6. Petrochemicals – Complete Guide to Process & Industry [Udemy]

In this course, you will learn about the most relevant petrochemical & their production routes for Oil & Gas.

The petrochemical industry is the focus of the course. Discusses a variety of chemicals and their chemical routes in order to meet consumer demands on a large scale.

In this course, you will learn about:

• The Petrochemical Industry
• Difference between Petroleum Refining vs. Petrochemical Industry
• Paraffins, Olefins, Napthenes & Aromatics   
• Market insight (production, consumption, prices)
• Two main Petrochemical Processes: Naphtha Steam Cracking and Fluid Catalytic Cracking
• The most important grouping in petrochemical products
• Petrochemical physical & chemical properties. Chemical structure, naming, uses, production, etc.
• Basic Gases in the Industry: Ammonia, Syngas, etc…
• C1 Cuts: Methane, Formaldehyde, Methanol, Formic Acid, Urea, Chloromethanes, etc…
• C2 Cuts: Ethane, Acetylene, Ethylene, Ethylene Dichloride, Vinyl Chloride, Ethylene Oxide, Ethanolamines, Ethanol, Acetaldehyde, Acetic Acid, Ethylene Glycols (MEG, DEG, TEG)
• And many more.

Particularly, at the end of the course, you will have a solid understanding of how the petrochemical industry operates.

Also, you’ll learn about the most popular petrochemicals, their distribution, processing, and significance in everyday life. Knowing the most popular and cost-effective chemical pathways will aid you in future process simulations.

Key Ups

• 10.5 hours of on-demand video
• 2 articles
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the link below to get the course!

Get The Course Here

#7. Flash Distillation in Chemical & Process Engineering [Udemy]

Learn How to Model and Operate Flash Distillation Units in Chemical Plants

Flash distillation is one of the chemical industry’s most critical mass transfer operations. As a fundamental unit operation, it is also one of the most relevant processes to learn in Mass Transfer / Separation Process Technologies.

However, understanding the vapor-liquid equilibrium and all other mass transfer interactions can help you understand and model Flash Drums and Flashing Systems. The majority of them can be used to “theoretically” model other unit operations like distillation columns, batch distillations, tray columns, and packed columns, among others.

Interestingly, this course will cover topics such as:

• REVIEW Of Mass Transfer Basics (Equilibrium VLE Diagrams, Volatility, Raoult’s Law, Azeotropes, etc..)
• Flash Distillation Theory – Concepts and Principles
• Application of Distillation in the Industry
• Equipment for Flashing Systems, such as Flash Drums
• Design & Operation of Flash Drums
• Material and Energy Balances for flash systems
• Adiabatic and Isothermal Operation
• Animations and Software Simulation for Flash Distillation Systems (ASPEN PLUS/HYSYS)

Additionally, at the end of the course, you’ll learn about the mass transfer mechanisms and processes that go into Flash Distillation.

Also, you will learn more about Batch distillation, fractional distillation, and continuous distillation, and other courses, such as Multi-Component Distillation, Reactive Distillation, and Azeotropic Distillation, will be available to you.

Key Facts

• 10.5 hours of on-demand video
• 12 articles
• 25 downloadable resources
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the link below to get the course!

Get The Course Here

Read More: 15+ Best Online 2D Animation Courses & Schools with Certificates 2023

#8. Unit Operations in Chemical Engineering [Udemy]

Learn the most important Unit Operations in Chemical Plants

This course studies the core of Chemical Engineering: Unit Operations.

• What are Unit Operations?
• Typical Unit Operations in Chemical Engineering
• Piping & Fittings
• Pumping, Compressing, and Fluid Metering
• Fluidization Beds
• Heat Exchangers (Heat & Shell, Plates)
• Condensers
• Evaporators (Falling/Rising Film, Natural, and Forced Convection)
• Reboilers (Kettle, Thermosyphon)

Furthermore, the instructor will dig deep into Flashing & Distillation, Liquid and Gas Dispersion, Absorption and Stripping, Liquid-Liquid Extraction, Drying, and Humidification, Continuous Stirred Tank Reactors, and also Pipe & Instrumentation Diagrams (P&ID).

Key Ups

• 4.5 hours of on-demand video
• 3 articles
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the image below to get the course!

#9. Aspen Plus – Basic Process Modeling [Udemy]

Learn how to model Basic Industrial and Chemical Processes!

The BASIC Aspen Plus Course will teach you how to model and simulate processes using Aspen Plus (From Petrochemical to Ammonia Synthesis and Polymerisation).

However, the analysis of Unit Operation will help you in order to optimize the Chemical Plant. 

This is useful for R&D and Plant Design/Operation students, instructors, engineers, and researchers.

The course is didactic, with a strong emphasis on applied theory and workshops/case studies.

Lastly, in this course, you will be able to set up a simulation, run it, get results, and, most importantly, analyze the method for further optimization at the end of the course.

Key Ups

• 5.5 hours of on-demand video
• 4 articles
• 6 downloadable resources
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the image below to get the course!

#10. Gas Absorption & Stripping in Chemical Engineering [Udemy]

Model Separation Processes involving Absorption, such as Packed Towers and Tray Columns

In early process engineering, gas absorption is one of the first Mass Transfer Unit Operations studied. It’s crucial in a variety of separation processes, and it’s widely used in the chemical industry.

Some of the topics covered in this course include:

• REVIEW: Of Mass Transfer Basics required
• GAS-LIQUID interaction at the molecular level, the two-film theory
• ABSORPTION Theory
• Application of Absorption in the Industry
• Counter-current & Co-current Operation
• Several types of equipment to carry Gas-Liquid Operations
• Bubble, Spray, Packed, and Tray Column equipment
• Solvent Selection
• Design & Operation of Packed Towers
• Pressure drop due to packing
• Design & Operation of Tray Columns
• Single Component Absorption
• Single Component Stripping/Desorption
• Diluted and Concentrated Absorption
• Basics: Multicomponent Absorption
• Software Simulation for Absorption/Stripping Operations (ASPEN PLUS/HYSYS)

Key Ups

• 15 hours of on-demand video
• 1 article
• Full lifetime access
• Access on mobile and TV
• Certificate of completion

Click on the image below to get the course!

#11. Introduction to Petroleum Engineering [Coursera]

Oil and gas extraction, reservoir energy and power, petroleum deposit drainage, construction systems, well operation techniques, and other topics will be covered in this course.

Most noteworthy, each course participant will gain an understanding of the field life cycle and an interdisciplinary approach to the production and operation of petroleum fields.

Throughout the course, we will address the following topical areas:

• Foreign petroleum reserves, history of oil and gas applications.
• The fundamentals of petroleum geology cover the rock cycle; oil, coal, and water deposits; oil and gas composition; prospecting for oil and gas reserves.
• Fundamentals of reservoir engineering and modeling, as well as major drilling techniques, seismic tools, and well testing.
• The fundamentals of well drilling and development

Anyone who is interested in learning more about the petroleum industry is welcome to join this introductory course. More specific groups include:

• Parents and high school students who are considering a career.
• Graduates with a BSc or an Engineering degree choose to continue their education.
• Employees of petroleum companies with non-petroleum educational backgrounds who aren’t directly interested in field exploration and production (finance, marketing, management, HR, etc.) but need a basic understanding of the industry.

However, at the end of the course, you will be able to analyze and apply theoretical knowledge in the area of petroleum geology, reservoir engineering, and production technology.

Key stats

• Earn a Certificate upon completion
• Start instantly and learn at your schedule.
• Flexible deadlines
• Beginner Level
• Approx. 27 hours to complete

Click on the image below to get the course!

#12. Materials Science: 10 Things Every Engineer Should Know [Coursera]

In this course, we look at “ten things,” ranging from the materials available to engineers to the mechanical and electrical properties of materials essential to their use in various engineering fields. We also go into the principles that go into making such materials.

By the end of the course, you will be able to:

• Recognize the critical characteristics of materials used in modern engineering applications.
• “Structure contributes to properties” explains the basic theory of materials science.
• As the Arrhenius relationship demonstrates, thermally activated processes play an important role in many of these important “materials.”
• Relate each of these subjects to problems that have arisen (or may arise) in your life.

Key Stats

• Earn a Certificate upon completion
• Start instantly and learn at your schedule.
• Flexible deadlines
• Approx. 9 hours to complete
• English

Click on the image below to get the course!

#13. Exploring Renewable Energy Schemes [Coursera]

When you hear the word “renewable energy,” what comes to mind? Can you envision solar farms, massive windmills, or massive hydroelectric dams? Those are all examples of grid-connected, large-scale systems. We’ll go much smaller in this course, focusing on off-grid, stand-alone systems.

Similarly, we’ll look at the components that make photovoltaic, wind, and hydroelectric systems work.

Also, we’ll look at photovoltaic (PV) system components and the scientific laws governing how renewable energy systems operate. Wind energy and low-head hydroelectric systems will be discussed, with an emphasis on small-scale implementations.

Particularly, we’ll concentrate on the safety and regulatory bodies that guide proper device design throughout our investigation of these systems.

Additionally, you’ll be able to put what you’ve learned into practice by performing an energy audit to assess power usage, defining critical system components of small-scale systems, developing a budget for a small-scale system design, and creating a design for implementation during the course.

Benefits of the course

• Determine the main features and technical specifications of photovoltaic, wind, and low-head hydroelectric energy systems.
• Integrate the scientific and technical concepts needed for evaluating and implementing small-scale renewable energy schemes.
• Develop a plan for implementing a small-scale renewable energy scheme.
• Earn a Certificate upon completion
• 100% online
• Flexible deadlines
• Beginner Level

Click on the image to download the course

#14. Material Processing [Coursera]

Have you ever wondered why ceramics are brittle and heavy when metals are ductile? Why are certain materials heat or electricity conductors and other insulators?

Why does adding a small amount of carbon to iron result in a much stronger alloy than the base metal?

This course will teach you how a material’s properties are determined by its microstructure, which is determined by its composition and processing.

Interestingly, this is the second of three Coursera courses that mimic Georgia Tech’s Introduction to Materials Science course, which is required of all engineering undergrads.

Particularly, the course’s goal is to help students better understand the engineering materials used in their everyday lives.

Additionally, the basics of materials science are covered in this course, which includes atomic structure and bonding, crystal structure, atomic and microscopic defects, and noncrystalline materials like glasses, rubbers, and polymers.

Key Ups

• Earn a Certificate upon completion
• 100% online
• Flexible deadlines
• Approx. 12 hours to complete

Click on the image below to get the course

#15. Energy Production, Distribution & Safety [Coursera]

Establish the foundation for an energy job. Acquire fundamental knowledge and insights into the evolving power industry.

Whether you’re interested in a utility technician or utility worker job, or emerging green energy solutions, this specialization offers an introduction to the energy industry and related career opportunities.

Particularly, this course is aimed at those interested in pursuing a career in the field and those with less than three years of experience and have not completed similar training.

Similarly, learners gain an overview of electric power systems, natural gas, safety standards, and the energy industry as a whole across four courses.

Key Ups

• Earn a Certificate upon completion
• 100% online
• Flexible deadlines
• Beginner Level
• Approximately 4 months to complete

Click on the image below to get the course

#16. Construction and operation of pumps for nuclear power plants [Coursera]

In manufacturing, agriculture, and public utilities, pumps are commonly used. Pumps, on the other hand, have the broadest variety of applications in power engineering.

Nuclear and thermal power plant technical systems entail the movement of vast amounts of fluids with varying physical and chemical properties at varying pressures and temperatures. As a result, the safe and efficient operation of power units is largely dependent on the operation of reliable pumps.

However, the offered online course contains six modules and 22 lessons. It focuses on the following: “Brief historical outline of pump development, “Classification and design of pumps,” “The main nodes of pump design, “Pump stage theory, “Pump characteristics,” and “Pump operation in the system.”

Most noteworthy, this course is meant for students majoring in Power Engineering and power plant staff who want to learn more about power plants’ key equipment and components.

Key Benefits

• Earn a Certificate upon completion
• 100% online
• Flexible deadlines
• Beginner Level
• Approx. 24 hours to complete

Click on the image below to get the course

#17. Statistical Thermodynamics [Coursera]

This specialization was created for advanced undergraduate or graduate mechanical or aerospace engineering students who already have a good background in undergraduate thermodynamics and can tackle the subject’s underlying fundamentals.

Particularly, it is intended for students interested in pursuing advanced degrees in fields such as combustion, high-temperature gas dynamics, environmental sciences, or materials processing or who want to gain a foundation in advanced experimental diagnostic techniques in these or related fields.

Additionally, the course deduces properties for gases, liquids, and solids from the relationship between macroscopic and macroscopic thermodynamics. Non-equilibrium action, as seen in kinetic theory and chemical kinetics, is also covered.

The key concepts are using a postulatory approach to introduce basic concepts and the straightforward relationship between macroscopic and microscopic thermodynamics.

More so, students are given an effortless way to learn about important concepts like entropy and temperature, ensembles, and quantum mechanics by incorporating basic ideas using postulates.

Key Ups

• Earn a Certificate upon completion
• 100% online
• Flexible deadlines
• Advanced Level
• Approximately 4 months to complete

Click on the image below to get the course

#18. Safety in the Utility Industry [Coursera]

Interestingly, this course will teach you the fundamentals of utility industry protection. Personal protection equipment, fire prevention, hazardous chemicals, and their symbols will all be protected. You’ll learn how to understand the value of a healthy working environment.

Particularly, this course is designed for people interested in a career in the energy sector (who have a high school diploma or equivalent and a basic understanding of mathematics), as well as current energy sector workers with less than three years of experience who have not completed comparable training and would benefit from a fundamental industry concepts course.

The course is a combination of online lectures, videos, readings, and discussions.

This is the third course in the Energy Production, Distribution, and Safety specialization, which examines various aspects of the power industry and culminates in the development of a roadmap for achieving a self-defined, energy-related professional target. To have a better understanding of the specialization.

This is one of the Best Online Chemical Engineering Courses on Coursera.

Key Ups

• Earn a Certificate upon completion
• 100% online
• Flexible deadlines
• Beginner level
• Approx. 11 hours to complete.

Click on the image below to get the course

#19. The technology of modern composite materials with carbon fillers [Coursera]

The course will assist in the training of experts in the fields of hydrocarbon raw material processing, developing effective chemical means to protect agricultural plants and animals, and developing new materials, such as advanced alloys (superalloys), advanced polymers, advanced composite materials, advanced ceramic materials, metal powders, and metal-powder formulations, and metamaterials.

However, the aim of the course is to teach students about modern technologies and methods for using carbon fillers in composite materials, as well as their applications in various industries.

Interestingly, composite materials with carbon fillers enable you to make creative technological decisions and build goods, assisting customers in all industries in improving the reliability, safety, cost-effectiveness, and competitiveness of their manufacturing processes.

Additionally, you will learn about carbon nanostructures and composite materials based on them, Modern approaches to the creation of high-performance composite seals with carbon fillers, and Industrial technologies for producing flexible graphite foil reinforced with carbon fibers. Areas of application for flexible graphite foil and also thermal insulation materials on an organic and inorganic basis.

Key Facts

• Earn a Certificate upon completion
• 100% online
• Flexible deadlines
• Intermediate Level
• Approx. 14 hours to complete

Click on the image below to get the course

#20. Introduction to High-Throughput Materials Development [Coursera]

This course will give you an overview of high-throughput experimental methods that can help you explore and grow new materials faster.

It is widely acknowledged that the exploration of new materials is critical to solving many of industry’s and society’s technical problems.

These issues include, among others, energy production and use, carbon capture, tissue engineering, and the production of sustainable materials.

This course will expose the student to a revolutionary new material exploration and characterization approach.

Particularly, this course would help engineers and scientists in industry, academia, and government by teaching them how to apply one aspect of HTMD, high-throughput experimental methods, to real-world materials discovery and characterization problems.

Similarly, internationally leading faculty experts will provide a historical perspective on HTMD, describe the preparation of ‘library’ samples that cover hundreds or thousands of compositions, and explain techniques for characterizing the library to determine the structure and various properties, including optical, electronic, mechanical, chemical, thermal, and others. Case studies in energy, transportation, and biotechnology are provided to illustrate methodologies for metals, ceramics, polymers, and composites.

This course was created by the Georgia Tech Institute for Materials (IMat) to introduce a wide audience to the basic elements of the Materials Genome Initiative.

Key Ups

• Earn a Certificate upon completion
• 100% online
• Flexible deadlines
• Intermediate Level
• Approx. 16 hours to complete

Click on the image below to get the course

#21. Ash-Related Operational Challenges in Energy Utilization of Sustainable Fuels

The basic concept behind this MOOC is to present current data on fuel characterization, slagging, fouling, corrosion, and trace element transformations in a course that students and industry professionals can easily access.

However, this ensures that the research is understood and applied and offers a forum for students and industry to discuss the most recent research findings and input from the industry to the DTU research community on relevant new research topics in the area.

The specific aim of the MOOC is that students will be able to;

• Explain basic physical and chemical differences between solid fuels like coal, biomass, waste, etc., be able to characterize solid fuels, and interpret fuel analyses of them.
• Interpret and utilize data from advanced fuel and ash analyses (SEM, DTA/TGA, chemical fractionation, ash melting temperatures)
• Describe chemically and physically how critical ash-forming elements are released to the gas phase, the mechanisms for the formation of aerosols and fly ash particles, and explain how ash is transported from bulk gas to heat transfer surfaces.
• Quantify the processes of deposit build-up, sintering, and shedding
• And lastly, Explain the fundamentals of high-temperature corrosion in thermal fuel conversion systems.

Benefits of the course

• Explain basic physical and chemical differences between solid fuels like coal, biomass, waste, etc., and interpret fuel analyses of them
• Quantify the processes of deposit build-up, sintering, and shedding
• Approx. 69 hours to complete
• Earn a Certificate upon completion
• 100% online
• Intermediate Level

That’s the end of the list of the best Online Chemical Engineering Courses on Coursera.

Conclusion

In this blog post, I have carefully listed some of the best Online Chemical Engineering Courses available in 2023 for you to choose from a wide variety of courses.

As I said earlier, these Online Chemical Engineering Courses were compiled from top MOOC platforms online to give you a wide variety of options to choose from.

So relax, you are getting the best.

Also, the courses are suitable for both beginners, intermediate learners, and experts.

So if you want to take your knowledge up a notch, I suggest you take one of the courses listed here and start learning.

I hope this information was helpful to you, I wish you a happy learning. Enjoy!!!! Please, drop a comment in the comment session to tell us how you feel about the list and some questions as well. Looking forward to hearing from you.

Lastly, visit our website to find more courses and share this article with your friends if you find it useful.

FAQ

What are the best online chemical engineering courses available?

The best online chemical engineering courses can vary depending on individual preferences and goals. However, some reputable platforms and institutions offering top-notch courses include Coursera, Udacity, MIT OpenCourseWare, and edX. These platforms often provide diverse courses taught by industry experts and professors from renowned universities.

How do I choose the right online chemical engineering course that suits my needs and career goals?

To choose the right online chemical engineering course, consider the following factors:

• Course Content: Review the curriculum to ensure it covers the topics you wish to learn or enhance your knowledge in.
• Instructor Expertise: Check the credentials and experience of the course instructors to ensure they are qualified in the field.
• Reviews and Ratings: Read reviews and ratings from previous learners to get insights into the course’s quality and effectiveness.
• Accreditation: If you seek professional development or certification, ensure relevant organizations accredit the course.

Are there any reputable institutions or platforms offering accredited online chemical engineering courses?

Yes, several reputable institutions and platforms offer accredited online chemical engineering courses. Universities like Massachusetts Institute of Technology (MIT), Stanford University, and University of California, Berkeley, offer online courses through platforms like Coursera and edX, which are known for their high-quality content and accreditation.

What topics or subjects are typically covered in the best online chemical engineering courses, and how in-depth are the lessons?

The topics covered in online chemical engineering courses can vary. Still, they often include core subjects such as thermodynamics, transport phenomena, chemical reaction engineering, process design, and safety in chemical processes.

Additionally, courses may delve into specialized areas like environmental engineering, biotechnology, or materials science. The depth of lessons depends on the course’s level, but reputable courses usually provide a comprehensive understanding of the subject, combining theoretical concepts with practical applications and case studies.