Industrial processes contribute significantly to greenhouse gas emissions. Since industry often uses fossil, carbon-based energy sources as raw materials and often requires high process temperatures, ...

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

Digitalization, Internet of Things (IoT), big data, artificial intelligence, and virtual reality are some examples of rapidly developing areas of technology that will have a big impact on how ...

Enzymes with specific functions are becoming increasingly important in industry, medicine and environmental protection. For example, they make it possible to synthesize chemicals in a more ...

Continuous-process industries are at an inflection point regarding what they can do with automation, making now an ideal time to address inefficiencies and hazards. The era of the remote workforce has ...

Catalysts are used in a wide variety of industrial processes around the world in everything from the production of medicines, fertilizers, plastics, and other household products to the processing of ...

High-quality water is essential for most industrial processes, and many of these processes generate large volumes of contaminated wastewater. Nanotechnology has the potential to make industrial water ...

Monitoring total organic carbon (TOC) (i.e., organics monitoring) is an excellent method for ensuring your industrial processes are under control and your equipment is protected. The goal is to ...

Separating molecules is critical to producing many essential products. For example, in petroleum refining, the hydrocarbons – chemical compounds composed of hydrogens and carbons – in crude oil are ...