Chemical engineering blends experimental sciences and life sciences to produce goods that promote life. Engineer creates processes to convert chemicals and materials into functional forms in laboratory environments.
If you want to learn chemical engineering with online courses, we have listed the best chemical engineering college for your help. You can enrol in these courses by just clicking on the applied link in apply now and get the related information.
Table of Contents
Analysis of Transport Phenomena I: Mathematical Methods
In this course, you will learn how to formulate reaction-convection-diffusion models based on partial differential equations and use pencil and paper to solve them in an old-fashioned way. By simplifying a model without losing the leading physics, you can also learn the art of approximation-how to get practical solutions. You know the modelling principles and mathematical techniques will advance your career in business or academia in this course.
Provider: Massachusetts Institute of Technology
Subject: Engineering
Duration: 17 weeks
Start Date: Open
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Biorefinery: From Biomass to Building Blocks of Biobased Products
Enter this course and acquire the new biorefinery scholarly information to apply to their ongoing studies or advance their careers. A contentious subject is the use of fossil fuels, and there is a great deal of scientific evidence to argue against their use of oil, chemicals, and the manufacture of almost any product. Next, you’ll learn about available techniques and processes for biomass activation, disentanglement and separation. Next, you can explore how to build a biorefinery with feedstock and efficient use of and diving resources in mind.
Provider: Wageningen University & Research
Subject: Engineering
Duration: 7 weeks
Start Date: Open
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Catalytic Conversions for Biobased Chemicals and Products
Develop new (bio)catalytic conversion routes that allow you to use bio-based feedstocks as building blocks for chemicals, materials and fuels to their highest potential. Join this course if you want to advance your career and explore the related fundamental knowledge on (bio) the catalytic conversion for producing(new) bio-based building blocks, chemicals and products. The experience gained in this course will allow you to design processes specifically targeted at conversions based on biomass.
Provider: Wageningen University & Research
Subject: Chemistry
Duration: 5 weeks
Start Date: Open
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Aspen Plus – Basic Process Modeling
The Aspen Plus BASIC Course will teach you how to model and simulate processes (From Petrochemical to Ammonia Synthesis and Polymerization). Unit Process Analysis will assist you in optimizing the chemical plant. In the field of R&D and Plant Design/Operation, this is useful for students, educators, engineers and researchers. With a lot of applied theory and seminars/research events, the course is didactic.
Provider: Emmanuel Ortega( chemical engineering person )
Subject: Engineering
Duration: 5.5 hours
Start Date: Open
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Unit Operations in Chemical Engineering
In this course, we study the core of Chemical Engineering in 21 topics. It covers design, models and overall review of Unit Operations. This course is for Junior Engineers, Chemical Engineers, Process Engineers, Design Engineers, Plant Engineers, and Engineer Refreshers.
Provider: Emmanuel Ortega( chemical engineering person )
Subject: Engineering
Duration: 4.5 hours
Start Date: Open
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Petrochemicals – Complete Guide to Process & Industry
The course is mainly about the petrochemical industry. Talks about several chemicals and their chemical routes to produce in mass scale the demands of the market. You will know the most common petrochemicals and their distribution, production and importance in daily life. It will help in your future process simulations by understanding the standard and economical chemical pathways.
Provider: Emmanuel Ortega( chemical engineering person )
Subject: Engineering
Duration: 10.5 hours
Start Date: Open
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Chemical and Biological Reaction Engineering
This course refers to the study of chemical and biological reaction systems, the derivation of rate expressions from reaction mechanisms and stability or steady-state assumptions, the design of chemical and biochemical reactors by synthesizing chemical kinetics, transport phenomena, mass and energy balances, the principles of reaction rate, stoichiometry and equilibrium.
Provider: Massachusetts Institute of Technology
Subject: Engineering
Duration: 15 weeks (1 hour for one session)(total 30 sessions )
Start Date: Open
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Chemical Engineering Thermodynamics
This course aims to relate classical and statistical thermodynamics principles, concepts, and laws/postulates to applications. It includes quantitative knowledge of thermodynamic properties at the macroscopic and molecular levels. It includes their fundamental classical thermodynamic postulates and their application to open and closed transient systems. It also provides knowledge of stability and balance parameters and constitutive property models of pure materials and mixtures that use statistical mechanics’ formalism to emphasize molecular-level effects.
Provider: Massachusetts Institute of Technology
Subject: Engineering
Duration: 2 sessions / week, 2 hours / session
Start Date: Open
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Computational Quantum Mechanics of Molecular and Extended Systems
The Hartree-Fock theory and density functional theory’s theoretical frameworks introduce in this course as approximate methods to solve the many-electron problem. A variety of ways address to integrate electron correlation. In addition to the thermodynamics and kinetics of chemical processes, using these techniques to measure chemical systems’ reactivity and spectroscopic properties emphasize. This course also focuses on cutting-edge sampling complex hypersurfaces for reactions in liquids, catalysts, and biological systems.
Provider: Massachusetts Institute of Technology
Subject: Engineering
Duration: 2 sessions / week, 1.5 hours / session
Start Date: Open
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Kinetic Processes in Materials
The material given in this course is the precise treatment of phenomenological and atomistic kinetic processes. It provides the basis for a broad spectrum of materials for an advanced understanding of production, microstructural evolution, and behaviour. The course emphasizes the study and presentation of comprehensive fundamental knowledge, including irreversible thermodynamics, diffusion, nucleation, phases, fluid and heat, morphological instabilities, gas-solid, liquid, and solid-solid reactions.
Provider: Massachusetts Institute of Technology
Subject: Engineering
Duration: 3 sessions / week, 1.5 hours / session
Start Date: Open