Free Chemical Engineering Courses Online

Chemical engineering is a branch of engineering that applies physical sciences (physics and chemistry), life sciences (microbiology and biochemistry), together with applied mathematics and economics to produce, transform, transport, and properly use chemicals, materials and energy. A chemical engineer designs large-scale processes that convert chemicals, raw materials, living cells, microorganisms and energy into useful forms and products.

If you are looking for online chemical Engineering classes to advance your career, we provide free courses from top universities for all learners worldwide:

• Transport Processes in the Environment,  MIT
• Fundamentals of Advanced Energy Conversion,  MIT
• Fundamentals of Photovoltaics,  MIT
• Organic & Biomaterials Chemistry,  MIT
• Materials Processing,  MIT
• Polymer Physics,  MIT
• Polymer Engineering,  MIT
• Introduction to Solid State Chemistry,  MIT
• Transport Phenomena in Materials Engineering,  MIT
• Advanced Chemical Experimentation and Instrumentation,  MIT
• Introduction to Organic Synthesis Laboratory,  MIT
• Physical Chemistry II,  MIT
• Designer Immunity: Lessons in Engineering the Immune System,  MIT
• Transport Processes,  MIT
• Separation Processes,  MIT
• Chemical and Biological Reaction Engineering,  MIT
• Biochemical Engineering,  MIT
• Separation Processes for Biochemical Products,  MIT
• Process Dynamics, Operations, and Control,  MIT
• Polymer Science Laboratory,  MIT
• Integrated Chemical Engineering I,  MIT
• Integrated Chemical Engineering II,  MIT
• Integrated Chemical Engineering Topics I: Process Control by Design,  MIT
• Integrated Chemical Engineering Topics I: Introduction to Biocatalysis,  MIT
• Molecular Aspects of Chemical Engineering,  MIT
• Fields, Forces and Flows in Biological Systems,  MIT
• Microscopic Theory of Transport,  MIT
• Photovoltaic Solar Energy Systems,  MIT
• Quantitative Physiology: Organ Transport Systems,  MIT
• Chemicals in the Environment: Fate and Transport,  MIT
• Turbulent Flow and Transport,  MIT
• Desalination and Water Purification,  MIT
• Radiative Transfer,  MIT
• Internal Combustion Engines,  MIT
• Marine Power and Propulsion,  MIT
• Control of Manufacturing Processes (SMA 6303),  MIT
• Direct Solar/Thermal to Electrical Energy Conversion Technologies,  MIT
• Electrochemical Processing of Materials,  MIT
• Mechanical Behavior of Plastics,  MIT
• Organometallic Chemistry,  MIT
• Semiconductor Manufacturing,  MIT
• Numerical Methods Applied to Chemical Engineering (Fall 2006),  MIT
• Numerical Methods Applied to Chemical Engineering (Fall 2005),  MIT
• Chemical Engineering Thermodynamics,  MIT
• Synthesis of Polymers,  MIT
• Electrochemical Energy Systems,  MIT
• Computational Quantum Mechanics of Molecular and Extended Systems,  MIT
• Random Walks and Diffusion,  MIT
• Fields, Forces, and Flows in Biological Systems (BE.430J),  MIT
• Neutron Interactions and Applications,  MIT
• Plasma Transport Theory,  MIT
• Tumor Pathophysiology and Transport Phenomena,  MIT
• Making Science and Engineering Pictures,  MIT
• Introduction to Chemical Engineering (Self-Study),  Stanford