Кафедра цивільної безпеки
Постійне посилання на фондhttps://repository.lntu.edu.ua/handle/123456789/85
Переглянути
2 результатів
Результати пошуку
Item type:Наукова стаття, Activities of Professor Tomasz Rylski (1838‒1924) in the birth and development of tests of agricultural machines in the second half of the 19th century(Kyiv: DUIT , 2023) Klymenko, MykhailoThe aim of the study is a comprehensive assessment of the activity, scientific and creative achievements of Professor Tomasz Nikodem Ścibor-Rylski in the development of the field of testing agricultural machines in the second half of the 19th century. To achieve the aim of the study, the principles of historicism, scientificity and objectivity of coverage of historical phenomena and events were used based on the application of the historical-scientific method, methods of analysis and generalization. For the first time, a number of archival documents were introduced into scientific circulation, which shed light on the scientist's activities in the field of testing agricultural machines. In the article, based on archival data, the available creative work of the scientist, the main stages of his activity in the issue of the origin and formation of tests of agricultural machines and tools are updated. The activities of Professor T. Rylski contributed to the birth of the scientific foundations of agricultural tests, the formation of the principles of rational use of agricultural equipment by farmers of the Austro-Hungarian Empire. The professor's long-term participation in various agricultural exhibitions and competitions led to the laying of the foundations for the creation of the first agricultural testing station in Dublyany on the territory of western Ukraine. Justifying the need to create a test station, T. Rylski relies on the importance of the transition from the "exhibition" method of testing agricultural machines to testing at specialized stations. The scientist believed that it is the scientific approach to testing that will contribute to increasing the efficiency of the use of agricultural equipment and reducing errors during its operation. The formation of the Dublyany Higher Agricultural School, as a powerful scientific and testing center on the territory of modern Ukraine and Poland, is connected with the scientist's name. The creative heritage of T. Rylski indicates his invaluable contribution to the emergence of the scientific foundations of agricultural equipment testing. Therefore, it is precisely the absence of a special comprehensive study of scientific, creative and organizational activity of a scientist in the historiography of science and technology that determines the relevance of this study.Item type:Наукова стаття, Optimization of the Occupational Safety Management System at Enterprises Using Potentially Hazardous Technologies(2026) Klymenko, Mykhailo; Visyn, OlenaProblem statement. Modern enterprises that use potentially hazardous technologies operate in conditions of increased production risks associated with the operation of complex machinery and equipment, the handling of explosive and flammable substances, and the performance of high-risk work. Traditional occupational health and safety management systems, based mainly on a reactive approach, do not provide adequate effectiveness. This necessitates a transition to a risk-based approach, which involves identifying, assessing and minimising risks at the planning and organisation stage of production processes. Improvements to occupational health and safety management systems should be aimed at preventing occupational injuries and diseases, fostering a culture of safety at work, and creating a sustainable risk management mechanism. The purpose of the article is justification of approaches to optimising occupational health and safety management systems at enterprises that use potentially hazardous technologies, taking into account the principles of risk-based management. Particular attention is paid to the issues of creating safe working conditions during the performance of high-risk work, developing practical mechanisms for reducing production risks and improving the effectiveness of the occupational safety management system. Conclusions. It has been established that when developing occupational health and safety management systems, it is necessary to take into account a set of key components, among which comprehensive and continuous risk and hazard assessment, as well as effective interaction between the components of the ‘human-machine’ system, both with each other and with the production environment, are of paramount importance. An important element is the organisation of systematic training of personnel and officials in methods of safe work using computer-integrated technologies in combination with automated control of the microclimate parameters of the working environment. Additional attention should be paid to measures for regular medical examinations of employees and monitoring of their physiological condition, as well as minimising risks associated with the technical condition of machines and mechanisms through inspections, certifications and expert assessments. An important aspect is the supervision of racking structures throughout their entire service life and the integration of training materials with data collection terminals and video terminals.