CASPIAN JOURNAL

MANAGEMENT AND HIGH TECHNOLOGIES

ANALYSIS OF SOME TRENDS OF THE MATHEMATICAL METHODS APPLICATION TO SUPPORT DECISIONS MAKING AND IMPLEMENTATION IN THE CREATION, TESTING AND USE OF ULTRAVIOLET LUMINISCENT LAMPS

Read Kovalenko Olga Yu., Pilshchikova Yuliya A., Guseva Evgeniya D. ANALYSIS OF SOME TRENDS OF THE MATHEMATICAL METHODS APPLICATION TO SUPPORT DECISIONS MAKING AND IMPLEMENTATION IN THE CREATION, TESTING AND USE OF ULTRAVIOLET LUMINISCENT LAMPS // Caspian journal : management and high technologies. — 2017. — №4. — pp. 51-61.

Kovalenko Olga Yu. - Doct. Sc. (Engineering), National Research Ogarev Mordovia State University, 68 Bolshevistskaya St., Saransk, Republic of Mordovia, 430005, Russian Federation, crystall2000@mail.ru

Pilshchikova Yuliya A. - Cand. Sci (Engineering), National Research Ogarev Mordovia State University, 68 Bolshevistskaya St., Saransk, Republic of Mordovia, 430005, Russian Federation, ulypil@mail.ru

Guseva Evgeniya D. - post-graduate student, National Research Ogarev Mordovia State University, 68 Bolshevistskaya St., Saransk, Republic of Mordovia, 430005, Russian Federation, genyai@rambler.ru

The article considers possible trends of mathematical methods (MM) application to validate viable decisions connected with development, research and application of fluorescent lamps of ultraviolet radiation (FLUVR) are considered. It also analyses possible mathematical models, which allow substantiating the preferability of using FLUVR compared to other sources of UV radiation. The authors dwell on technological solutions employed to produce FLUVR and assess the effectiveness of the methods used for correcting the emission spectra of gas-discharge FLUVR to increase their power of UV radiation. The article describes technical means and methods for studying the manufactured lots of experimental FLUVR. Moreover, the authors characterize the peculiarities of the application of mathematical methods for processing primary results of experimental studies (including methods of regression and variance analysis). The obtained results appear in tabular and graphical form. The paper also indicates some additional possibilities of using MM for the subject domain. On the whole, the obtained results confirm the potential of the solutions to use the proposed types of glasses in FLUVR, as well as the adequacy of the MM used in the article.

Key words: ультрафиолетовое излучение, излучающее устройство, технологии изготовления, энергетический поток, люминофор, удельная нагрузка, облученность, облучение, измерение потока, экспериментальная установка, математическое описание, дисперсионный анализ, регресси