Category: Университетская жизнь /

Translation. Region: Russian Federal

Source: Official website of the State –

An important disclaimer is at the bottom of this article.

Students from the State University of Management attended the opening ceremony of the VIII Youth Forum "Heritage," organized by the Moscow Department of Cultural Heritage.

Traditionally, the forum began with a student competition, which forms interdisciplinary interuniversity teams consisting of young specialists in a wide variety of fields: restoration, architecture, sociology, urban studies, engineering, design, PR, IT, economics, law, management, and history.

"At the direction of the Moscow Mayor, we are actively engaging young people in the preservation of cultural heritage. This requires a conscious approach. The key idea of the forum, organized in partnership with the capital's leading universities, is to engage young people with their fresh perspectives and progressive ideas in the process of preserving architectural monuments and integrating historical sites into the life of modern cities," noted Alexey Yemelyanov, head of the Moscow Department of Cultural Heritage.

About 400 students from more than 30 higher education institutions are taking part in the competition program.

The State University of Management is represented by 4th-year students in the field of "Urban Studies and City Management".

Student teams will develop a concept for the restoration and adaptation of a cultural heritage site. This year, the competition site chosen is the production building of the Moscow Wool Weaving Manufactory at 12 Petra Alekseyev Street in the Mozhaisk District of the Western Administrative Okrug, a 20th-century industrial architectural landmark. The projects will be presented in the second half of November 2025.

Participants will also attend lectures and master classes, and receive consultations from experts in architecture, restoration, urban studies, history, economics, law, management, and sociology. They will also have the opportunity to meet with owners of cultural heritage sites, investors, practicing restorers, renowned architects, and academics.

As a reminder, students from the State University of Management have been participating in the Heritage Youth Forum for over five years, and last year they were among the winners.

Subscribe to the "Our GUU" Telegram channel. Publication date: October 8, 2025.

Please note: This information is raw content obtained directly from the source. It represents an accurate account of the source's assertions and does not necessarily reflect the position of MIL-OSI or its clients.

Translation. Region: Russian Federal

Source: Peter the Great St. Petersburg Polytechnic University –

An important disclaimer is at the bottom of this article.

A team from the St. Petersburg Polytechnic University's Civil Engineering Institute, led by Viktor Elistratov, a professor at the Higher School of Hydraulic and Power Engineering, conducted the first full-scale dynamic studies of a 120 kW wind turbine at the Zapadno-Khosedayu oil field in the Nenets Autonomous Okrug, north of the Arctic Circle.

The field tests were carried out by Ivan Rigel, a postgraduate student at the Institute of Scientific Research and Development and a leading engineer at the Scientific and Educational Center for Renewable Energy and Installations Based on Them, with the support of VTR Engineering, using a grant from the Russian Science Foundation.

The studies were conducted using a specialized measuring system for monitoring dynamic loads and vibrations of building structures. This system included a digital accelerometer (at the top of the tower), a strain gauge station with four external strain gauge half-bridges (at the base of the tower), and a controller for recording the results in computer memory. To measure the temperature at depth in the permafrost, a temperature measurement system was lowered into a borehole near the pile cap. This system utilized high-precision temperature sensors and an Arduino Uno controller. The results were synchronized to UTC with the wind turbine's SCADA system using a GPS module.

Using the obtained data, we measured the acceleration of the tower's top and dynamic stresses at the tower's base over time under various wind turbine operating conditions. Furthermore, an important result of the study was the temperature distribution at the base and the depth of frozen ground. The frequencies and amplitudes of the predominant dynamic responses of the supporting structural system were identified depending on the operating conditions.

The obtained vibration characteristics of the wind turbine supporting structures, taking into account the influence of its operating modes, wind characteristics and the flexibility of the permafrost base, were used to validate the computational methods of aeroservoelastic and thermophysical modeling used for the dynamic calculation of supporting structures.

The design and operation of wind turbines in Arctic conditions are complicated by extreme wind loads, permafrost, and other climatic conditions. The dynamic characteristics of wind turbines are crucial and often a determining factor in the design justification of their supporting structures. Critically important for the reliability of calculations is the availability of actual data on operating modes and the correlation between these modes and the dynamic loads acting on wind turbines in Arctic conditions, which can only be obtained through full-scale testing.

This in-kind study of the dynamic characteristics of a wind turbine operating on permafrost in the Arctic was the first in Russia. A postgraduate student also conducted the first actual measurement of the foundation temperature, revealing that the seasonal thaw depth (transition through 0°C) is 2.25 meters. "These data are unique and of particular interest for the operation of wind turbines on permafrost in the Arctic zone of the Russian Federation, as well as for the development of reliable methods and models for designing and improving the operational reliability of Arctic wind energy facilities," Professor Viktor Elistratov concluded Ivan Rigel's mission.

Please note: This information is raw content obtained directly from the source. It represents an accurate account of the source's assertions and does not necessarily reflect the position of MIL-OSI or its clients.

Translation. Region: Russian Federation –

Source: Peter the Great St. Petersburg Polytechnic University –

An important disclaimer is at the bottom of this article.

The legendary Lyceum No. 239, renowned for its strong physics and mathematics program, hosted a meeting between high school students and their parents and representatives from universities in St. Petersburg and Moscow. Prospective students received first-hand information about the departments, educational programs, and opportunities offered by the country's leading universities.

Nikolai Ivanov, Director of the Institute of Physics and Mechanics, spoke to high school students about the key training areas and the unique scientific atmosphere at the Institute. He presented the full range of the institute's educational programs, noting their practical focus and close connection to cutting-edge scientific research. Prospective students learned about the application of fundamental knowledge in mechanics, mathematical modeling, and modern materials to solving complex engineering problems in various industries.

Yulia Logvinova, Maxim Polyukhovich, Dzhamilya Idrisova, and Alexey Ulyanov, instructors from the Higher School of Technosphere Safety, conducted a master class for students on identifying hazardous and harmful factors affecting humans. Using various devices, the students studied lighting, indoor noise, and electromagnetic radiation from phones. They were also introduced to trends in the construction industry and the educational pathways offered by the Institute of Civil Engineering at SPbPU.

Vadim Panevin, Sergey Melnikov, and Dmitry Dolzhenko, representatives of the Institute of Electronics and Telecommunications, captivated the students with a lecture on "Modern Challenges for Physics, Electronics, and Telecommunications." Their presentation immersed the students in the world of high technology. The audience was able to see a real nanosatellite, learn how electronics behave in extreme cryogenic temperatures, and witness impressive physics experiments.

The Polytechnic University's participation in the Open Day at Lyceum No. 239 was a significant event, allowing talented students not only to gain valuable information but also to truly experience the atmosphere of the country's leading engineering university. The Lyceum and the university have a long-standing partnership, and such meetings help cultivate a new generation of engineers and scientists prepared to meet modern challenges. The Lyceum's status as a flagship for preparing applicants for the Polytechnic University, confirmed by the results of the 2025 admissions campaign, serves as the best proof of the effectiveness of this collaboration.

Please note: This information is raw content obtained directly from the source. It represents an accurate account of the source's assertions and does not necessarily reflect the position of MIL-OSI or its clients.

Translation. Region: Russian Federation –

Source: Peter the Great St. Petersburg Polytechnic University –

An important disclaimer is at the bottom of this article.

Peter the Great St. Petersburg Polytechnic University and the IBS Group of Companies signed a strategic partnership agreement. The document aims to comprehensively develop the training of highly qualified specialists for the Russian IT industry.

The agreement provides for the involvement of the company's leading experts in the educational process at Polytechnic University. The partnership will be implemented in several key areas. IBS specialists will participate in the development and review of core educational programs, as well as course curricula, to ensure their content fully meets the current demands of the IT market. The company's practicing employees will teach specialized courses and modules and participate in the professional assessment of students' knowledge through the National Voluntary Certification System for IT Specialists. The company will act as a partner in the federal projects "Personnel for Digital Transformation" and "Artificial Intelligence," providing training for Polytechnic University students at the Analytical Center under the Government of the Russian Federation.

"The signing of the agreement is an important step in developing the Polytechnic University's strategic partnership with IT industry leaders," noted SPbPU Rector Andrey Rudskoy. "Combining the Polytechnic University's powerful scientific and pedagogical potential with the practical experience and resources of IBS will take the training of IT specialists to a whole new level, ensuring their continued relevance in the context of the digital transformation of the economy."

IBS's collaboration with Peter the Great St. Petersburg Polytechnic University, the country's flagship engineering education institution, will not only allow the university to test effective collaboration models but also to share IBS's cutting-edge educational programs, supported by the APKIT National Voluntary Certification System for IT Specialists. "I am confident that the involvement of key IBS staff in research and teaching will foster deep scientific and technical cooperation," commented IBS Managing Partner Natalia Pochinok.

The new agreement lays a solid foundation for long-term and mutually beneficial cooperation aimed at strengthening the business reputation of the two organizations and fulfilling the objectives set within the framework of the national project "Data Economy and Digital Transformation of the State."

Please note: This information is raw content obtained directly from the source. It represents an accurate account of the source's assertions and does not necessarily reflect the position of MIL-OSI or its clients.