News

NSTU scientists are developing a voltage converter for powering a wired unmanned aerial vehicle. A device capable of controlling the parameters of electrical energy will increase the continuous operation time of the UAV.

A team of students from Novosibirsk State Technical University (NETI) is developing a device for washing pet paws. The lap washer will allow you to quickly clean the dirt from the paws of pets and save the owners time for cleaning after the hygienic procedure.

Novosibirsk State Technical University (NSTI) is working on the creation of a flywheel energy storage drive (FES) based on contactless magnetic transmission of mechanical power. The use of this device in transport systems will significantly save fuel and reduce emissions of harmful substances into the atmosphere.

Yaroslava Antonenko, a master's student at the Department of Laser Systems at Novosibirsk State Technical University, conducted research on the detection of N2o impurities in technological processes using a laser optical-acoustic gas analyzer.

The educational programs of Novosibirsk State Technical University (NETI) "Nanoengineering" and "Chemical Technologies" were selected within the framework of the national project "New Materials and Chemistry".

NSTU developed an internal heating system for lithium-ion batteries with high-frequency alternating current in the range of 5-15 kHz and higher, which allows electric vehicles to be started at low temperatures.

Novosibirsk State Technical University (NSTU) is working to determine rational methods for finishing plastic aluminum alloys without removing the material. The advantages of such methods compared to traditional cutting processes are resource savings and surface hardening.

Victoria Zaitseva, a master's student at the Department of Optical Information Technologies at Novosibirsk State Technical University (NETI) has developed a method for forming multilayer binary Damman gratings, a technological approach for creating optical elements with diffraction and anti—reflection properties that will scale the production of optical elements.

Novosibirsk State Technical University (NSTU) has developed a method that can be used to locate single-phase short circuits on overhead power transmission lines. It allows you to determine the location of damage to the phase insulation without installing expensive equipment and increase the reliability of the power supply by quickly detecting damaged areas.