Development of the design module of the software and hardware complex to ensure the safety of mutually influencing HPS

• Published in: Stroitelʹnaâ mehanika inženernyh konstrukcij i sooruženij (Online) Vol. 15; no. 2; pp. 96 - 105
• Main Authors: Rubin, Oleg D, Antonov, Anton S, Bellendir, Evgeny N, Kobochkina, Ekaterina M, Kotlov, Oleg N
• Format: Journal Article
• Language: English
• Published: Peoples’ Friendship University of Russia (RUDN University) 15.12.2019
• Subjects: a calculation module; finite element models; foundations; hydraulic structures; information and diagnostic system; mathematical models; monitoring; safety prediction; software and hardware complex
• ISSN: 1815-5235; 2587-8700
• DOI: 10.22363/1815-5235-2019-15-2-96-105

Relevance. As part of the implementation of the Federal Law No. 117-FZ “On the Safety of Hydraulic Structures”, it is necessary to continuously monitor the state of hydraulic structures and related facilities by equipping with control and measuring instruments. The development of modern computer complexes allows us to carry out and predict the state of objects by combining computational research and field observations. The work is aimed at organizing a comprehensive assessment of the state of the HPS and ensuring the safety of existing and projected mutually influential complexes. Aims of research. Improving the safety of the operated (under construction) complex of interfering hydraulic structures. Assessment of sufficient and highquality engineering and repair work carried out on the HPS. Development of recommendations for improving the efficiency of construction of new and modernization of operated hydropower facilities. HPS on the example of the Zagorsk HPS. Methods. Representation of the interaction ideology of various software systems of mathematical modeling, using control and measuring instruments data for calibration and verification of mathematical models. Results. The structure of the HSC calculation module was updated, systematization of the calculation models was carried out, interaction and transfer of the initial data to the calculation module of the software and hardware complex was revealed. The implementation of scientific research is aimed at improving the safety of the complex hydraulic structures.