Module #1 Introduction to Innovations in Chemical Engineering Overview of the field of chemical engineering and its importance, current challenges, and emerging trends
Module #2 Nanotechnology in Chemical Engineering Applications of nanotechnology in chemical engineering, including nanomaterials, nanocatalysts, and nanoparticles
Module #3 Advanced Materials in Chemical Engineering Development and applications of advanced materials such as graphene, metamaterials, and shape-memory alloys
Module #4 Biotechnology in Chemical Engineering Applications of biotechnology in chemical engineering, including biocatalysis, bioseparations, and biosensors
Module #5 Sustainable Chemical Engineering Principles and practices of sustainable chemical engineering, including green chemistry, recyclable materials, and energy efficiency
Module #6 Process Intensification and Miniaturization Design and operation of compact, efficient, and sustainable chemical processes
Module #7 Digitalization and Industry 4.0 in Chemical Engineering Applications of digitalization, artificial intelligence, and IoT in chemical engineering, including process optimization and predictive maintenance
Module #8 Electrochemical Engineering Fundamentals and applications of electrochemical engineering, including fuel cells, electrolyzers, and electrochemical reactors
Module #9 Membrane Technology in Chemical Engineering Applications of membrane technology in chemical engineering, including filtration, separation, and purification
Module #10 Advanced Reactor Design and Operation Design and operation of advanced chemical reactors, including fluidized bed reactors and microreactors
Module #11 Greenhouse Gas Mitigation and Carbon Capture Strategies and technologies for reducing greenhouse gas emissions and capturing carbon dioxide
Module #12 Bioenergy and Bioproducts Production and application of biofuels, bioplastics, and other bioproducts
Module #13 Water and Wastewater Treatment Innovations New technologies and strategies for water and wastewater treatment, including membrane bioreactors and advanced oxidation processes
Module #14 Food Processing and Preservation Innovations New technologies and strategies for food processing and preservation, including high-pressure processing and pulsed electric field treatment
Module #15 Pharmaceutical Engineering and Manufacturing Design and operation of pharmaceutical manufacturing processes, including continuous manufacturing and quality by design
Module #16 Computational Tools and Models in Chemical Engineering Applications of computational fluid dynamics, process simulation, and machine learning in chemical engineering
Module #17 Safety and Risk Management in Chemical Engineering Strategies and practices for ensuring safety and managing risk in chemical engineering, including hazard analysis and risk assessment
Module #18 Energy Storage and Conversion Technologies Innovations in energy storage and conversion, including batteries, supercapacitors, and fuel cells
Module #19 Advanced Characterization and Analytical Techniques Applications of advanced characterization and analytical techniques, including spectroscopy, chromatography, and microscopy
Module #20 Soft Matter and Complex Fluids in Chemical Engineering Properties and applications of soft matter and complex fluids, including rheology and non-Newtonian fluids
Module #21 Microfluidics and Lab-on-a-Chip Technologies Design and applications of microfluidic devices and lab-on-a-chip technologies
Module #22 Systems Thinking and Process Optimization Approaches and tools for systems thinking and process optimization, including life cycle assessment and process intensification
Module #23 Collaborative Robotics and Automation in Chemical Engineering Applications of collaborative robotics and automation in chemical engineering, including robotic process optimization and autonomous systems
Module #24 Course Wrap-Up & Conclusion Planning next steps in Innovations in Chemical Engineering Technologies career