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 ...

Modeling-Driven Design of Materials and Electrodes for Beyond Lithium-Ion Batteries with Damla Eroglu, Department of Chem ...

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 ...

Chris Stanton, Sara Horton and Sherri Zeller presented their findings from the 1999 course. This year marks the 25th anniversary of the revamped and retooled Chemical Engineering Design Project course ...

The graduate programs from Drexel Engineering prepare professionals for applying deepened skillsets and knowledge that will further their career in research or industry. Graduates are prepared to take ...

Chemical engineering design is a multidisciplinary field that integrates core chemical principles, advanced computational tools and emerging sustainability paradigms to deliver innovative process and ...

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, ...

Chemical engineers combine engineering skills with physical sciences to develop new products and processes, as well as design, build and supervise facilities that convert raw materials into products ...

The chemical engineering PhD program from Drexel Engineering will engage you in learning and research at the forefront of chemical engineering, biochemical engineering, energy, environment, and ...

Chemical engineers manipulate chemical processes to solve problems and improve the well-being of humanity, through innovations in pharmaceuticals, biotechnology, clean energy, advanced materials and ...