Reaction engineering plays a vital role in chemical transformations where raw materials are converted into value-added products such as fuels, commodity chemicals, and pharmaceuticals. Like many other ...

Important everyday products—from plastics to detergents—are made through chemical reactions that mostly use precious metals ...

Scientists are finding new ways to replace expensive, scarce platinum catalysts with something far more abundant: tungsten ...

Interpretation of chemical rate selectivity data in homogeneous and heterogeneous reaction systems. Development and application of the theory of chemical kinetics, including collision, transition ...

Chemical looping fluidized bed reactors are an innovative technology for green hydrogen and chemical production. Recently, ...

Chemical engineering professor Matthew Memmott and his colleagues have developed an AI algorithm that can significantly reduce time in the nuclear reactor design process. A BYU professor has figured ...

Chemical engineers develop processes that transform raw materials into useful chemicals that enhance our quality of life. In addition to chemicals found in products used by consumers every day, ...

CM 3510 - Chemical Reaction Engineering A study of chemical reaction engineering including design and analysis of chemical reactors, the fundamentals of chemical kinetics, and analysis of reaction ...

When I was in high school, I loved my advanced science classes. Sometimes the material was tough — combustion reaction analysis takes time to understand — but I didn’t mind doing the work that it ...

Important concepts and elements of molecular biology, biochemistry, genetics, and cell biology are examined in an experimental context. This course fulfills the requirement for students majoring in ...