Extending pump life expectancy
Field pump performance testing provides the expert with developed head, capacity and efficiency data under normal (or abnormal) operating conditions.
Neural network chip developed to use light instead of electricity
MIT researchers have developed a photonic chip that uses light instead of electricity and is process massive neural networks more efficiently.
Researchers improve power storage capabilities
Battery update: Several universities have been working on advances to improve battery technologies and make them safer and more reliable for industrial and manufacturing applications. Click on links for more information.
Flexible generators turn movement into energy
Rice University researchers have produced flexible devices that use laser-induced graphene, which are designed turn movement into electrical energy and could enable wearable, self-powered sensors and devices.
Improving power supply intelligence
Control cabinet power supplies and uninterruptible power supplies (UPSs), thanks to higher-level intelligence, are evolving to provide operational information to users to make operations safer and more efficient.
Researchers grow stable 2-D magnets for electronic, storage applications
Rice University researchers have simplified the synthesis of an iron oxide that could be combined with 2-D materials for electronic and spintronic applications that take advantage of their spin states.
Fabrication platform produces pristine 2-D transistors
Columbia University engineers have developed a clean, damage-free fabrication process that creates pristine transistors made from 2-D material stacks.
Battery solutions company acquires high-voltage battery systems from manufacturer
American Battery Solutions, Inc. (ABS) has signed an agreement to acquire manufacturing and testing assets for high-voltage battery systems from Robert Bosch Battery Systems.
Researchers working to improve battery density, safety
Penn State University researchers have developed a solid-electrolyte interphase (SEI) designed to increase energy density, performance, and safety for lithium batteries.
Engineered surface developed to reduce waste, improve efficiency
MIT researchers have developed a coating to get much thicker materials to slide without sticking or deforming, which may improve the quality of products ranging from bread to pharmaceuticals, and the efficiency of flow batteries.