Explore the core differences between Chemical Engineering and Process Engineering. Learn about their unique roles in R&D vs. production, their technical focus areas, and the diverse career paths ...

Chemical engineers are the brains behind many of today’s essential products and materials. They turn crude oil, biological materials, metals and waste materials into usable products like gasoline, ...

Process Engineering encompasses the analysis, modeling, simulation, optimization, design, control and operation of process systems, from micro-sized systems to huge industrial facilities. Many ...

Chemical engineering is a versatile program and one of the most broadly-based engineering disciplines. Its field of practice covers the development, design, and control of processes and products that ...

Marcus Hoversland, a UW graduate and process engineer at HF Sinclair in Casper, interacts with UW students in an “Intro to Chemical Engineering” class. UW has received a generous investment from HF ...

Learn chemical process simulation, economics, automation, and control. Design and retrofit chemical processes to achieve improved performance and a better bottom line. Build skills in advanced process ...

Chemical engineers use their knowledge of chemicals to produce medicines, products, and safe manufacturing processes. Chemical engineering graduates can access careers in many industries, including ...

Environmental pollution and resource depletion have intensified due to rapid industrialization, urban expansion, and increasing consumption of natural ...

Chemical Engineering vs. Mechanical Engineering: The decision between Chemical Engineering (ChE) and Mechanical Engineering (ME) ultimately boils down to weighing career flexibility against ...

Chemical engineers develop problem-solving skills, with a strong foundation in science, engineering, and mathematics that touch every aspect of our lives–from smaller, faster computer chips to ...