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Academic literature on the topic 'Генератори озону'
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Journal articles on the topic "Генератори озону"
Andreev, V. V., A. N. Matunin, Yu P. Pichugin, V. G. Telegin, and G. G. Telegin. "INVESTIGATION OF THE EFFECTIVENESS OF PLASMA-CHEMICAL OZONE GENERATORS ON THE BARRIER DISCHARGE IN AIR AT ATMOSPHERIC PRESSURE." Problems of Atomic Science and Technology, Ser. Thermonuclear Fusion 34, no. 4 (2011): 112–17. http://dx.doi.org/10.21517/0202-3822-2011-34-4-112-117.
Full textShevchenko, A. A., and Y. S. Efimkin. "POWER SUPPLY UNITS OF OZONE GENERATORS USED IN AGRICULTURAL MANUFACTURING." Polythematic Online Scientific Journal of Kuban State Agrarian University, June 30, 2017. http://dx.doi.org/10.21515/1990-4665-130-008.
Full textСмородин, А. И., Е. И. Борзенко, Д. А. Тарабакин, А. В. Буторина, А. В. Зайцев, and А. А. Тарабакина. "Creation of Ozone Generator with Surface Discharge for Providing Vital Activity of Socially Important Objects." Engineering Journal: Science and Innovation, no. 14 (July 2013). http://dx.doi.org/10.18698/2308-6033-2013-1-581.
Full textDissertations / Theses on the topic "Генератори озону"
Махонін, Микола Віталійович. "Питання безпеки при експлуатації медичного генератора озону." Thesis, Національний технічний університет "Харківський політехнічний інститут", 2018. http://repository.kpi.kharkov.ua/handle/KhPI-Press/39026.
Full textКуліченко, Вячеслав Вікторович, Микола Віталійович Махонін, and Б. Кузьминський. "Модель генератору озону." Thesis, НТУ "ХПІ", 2017. http://repository.kpi.kharkov.ua/handle/KhPI-Press/33992.
Full textМахонін, Микола Віталійович. "Метод визначення параметрів генератору медичного озону для ефективного підвищення його продуктивності." Thesis, Національний технічний університет "Харківський політехнічний інститут", 2019. http://repository.kpi.kharkov.ua/handle/KhPI-Press/42015.
Full textThesis for the degree of candidate of technical sciences (PhD) in the specialty 05.11.17 “Biological and medical devices and systems”. -National Technical University "Kharkov Polytechnic Institute", Kharkov, 2019. The thesis is devoted to the solution of one of the current scientific and technical problems of modern medical instrument making - increasing the efficiency of the medical ozone generator by determining the parameters of the discharge chamber, the supply voltage and the oxygen consumption. Currently, ozone and its mixtures are widely used in the world for the wide range of applications. Different types of ozone generators depending on their application are used for ozone synthesis. These generators differ in size, the amount of ozone generated by the time span, etc. The peculiarity of the generators of medical ozone is that it is necessary to maintain the prescribed parameters of the resulting ozone-oxygen mixture throughout the entire duration of the procedure, and medical oxygen is used as the working gas. This allows us to implement ozone therapy techniques for the most effective treatment of patients. Typical parameters of the ozone-oxygen mixture, which the ozone generating plant should provide, are regulated in Ukraine "Methods for the application of ozone in medical practice", which were approved by the Ministry of Health in 2004. According to the modern version of these methods, the concentration of ozone in the ozone-oxygen mixture should vary in the range from 0.1 to 80 mg / l, and the flow rate of the mixture is from 0.1 to 1 l / min. Medical ozone generators are actively used in the offices of ozonotherapy and medical institutions in Ukraine, CIS countries, as well as Latin American countries. A large number of conferences devoted to ozone therapy are being held annually in the world in which it is further developed. The practical use of generators of medical ozone shows that most of the equipment used needs to be improved to provide work on the basis of modern medical solutions in treatment. That is, the development of a modern generator requires not only compliance with the parameters of modern requirements, but also a stock for development and the possibility of increasing the values of ozone concentration. In addition, in most medical ozone generators there is a discrepancy between the stated parameters of the ozone oxygen mixture and the value of ozone productivity. The performance of the ozone generator, in turn, depends on: the parameters of the discharge chamber, the parameters of the supply voltage, the parameters of the working gas. Many scientists, including Japanese, German and scholars from the CIS countries, are engaged in solving the problem of finding the optimal values of these parameters for increasing the efficiency of ozone generator operation. But at the moment there is still no universal model for calculating the parameters of the ozone generator. Thus, the task of increasing the efficiency of the medical ozone generator by determining the best parameters of its nodes, which will improve the quality of ozone therapy procedures, is an urgent and promising direction for the development of ozone generators. In the dissertation, for the first time, a mathematical model of the synthesis of ozone in a digital chamber of the medical ozone generator was constructed, which takes into account the influence not only of the parameters of electric energy, but also of the parameters of the discharge chamber and the working gas. The dependence of the influence of electric energy parameters on the synthesis of ozone in a discharge chamber was obtained on the basis of the conducted analysis and using computer simulation. The model of the ozone generation process in the barrier discharge has been further developed, which, in contrast to the existing one, takes into account not only the power supply parameters and camera dimensions, but also the processes occurring in the discharge gap. The method of calculation of the basic parameters of the ozone generator during its development, which allows increasing the efficiency of ozone synthesis, is proposed. The practical value of the results obtained is to justify the list of parameters that have the greatest impact on the performance of the medical ozone generator; engineering calculations of parameters of the generator of medical ozone, which allowed to optimize the design of the generator with the given parameters; the implementation of an experimental model of the medical ozone generator with an improved system of automatic regulation of gas consumption, which allowed to ensure the implementation of a wide range of procedures for ozone therapy. The practical results of the dissertation work were introduced at the Scientific-Production Enterprise "Econika" in the development and manufacture of modern generators of medical ozone, and also a prototype sample was developed, was tested at the medical center "Pulse Medika" and at the Institute of Medical Radiology N.A. Grigoriev.
Махонін, Микола Віталійович. "Метод визначення параметрів генератору медичного озону для ефективного підвищення його продуктивності." Thesis, Національний технічний університет "Харківський політехнічний інститут", 2019. http://repository.kpi.kharkov.ua/handle/KhPI-Press/42014.
Full textThesis for the degree of candidate of technical sciences in specialty 05.11.17 – biological and medical devices and systems. – National Technical University "Kharkіv Polytechnic Institute", Kharkіv, 2019. The thesis is devoted to the development of a method for determining the parameters of a medical ozone generator to effectively increase its productivity by determining the parameters of its constituent parts, taking into account the influence of factors of different nature. On the basis of the study of the issues of constructing generators of medical ozone, the relevance of the study of ways to increase its efficiency was proved. A mathematical model based on the use of a single volume, which describes the processes occurring in the discharge chamber when the voltage is applied, is proposed. The level of influence of the parameters of the working gas and the geometry of the discharge chamber on the performance of the ozone generator, as well as on the stability of the parameters of the ozone-oxygen mixture, which were set. A method has been developed for calculating the parameters of a discharge chamber of a medical ozone generator, which makes it possible to obtain the most efficient design for given operating modes. A study has been carried out on the development of an automated working gas consumption system with improved characteristics, which makes it possible to carry out the main methods of ozone therapy. The efficiency of this system has been proved on the basis of the work of a medical ozone generator layout during the passage of medical approbation.
Самець, Роман Ігорович, and Roman Samets. "Підвищення продуктивності медичних генераторів озону." Master's thesis, 2019. http://elartu.tntu.edu.ua/handle/lib/29855.
Full textКваліфікаційну роботу магістра присвячено питанням удосконалення методів отримання озону в озоногенераторах шляхом зниження амплітуди напруги живлення електродів озоногенератора при збільшенні частоти напруги до 50 кГц. Також обгрунтовано доцільність застосування напруги у вигляді двополярних прямокутних імпульсів.
The master's qualification work is devoted to the improving the methods for increasing the productivity of ozone generators by reducing the amplitude of the voltage ozone generators electrodes with increasing voltage frequency to 50 kHz. Also, the expediency of applying pressure in the form of bipolar rectangular pulses.
ЗМІСТ ВСТУП 9 РОЗДІЛ 1. ОЗОНОТЕРАПІЯ ТА ОСОБЛИВОСТІ ЗАСТОСУВАННЯ ЇЇ В МЕДИЦИНІ 11 1.1 Поняття озонотерапії 11 1.2 Біохімічні та біологічні властивості 15 1.3 Основні методи озонотерапії 19 1.4 Висновки до розділу 1 21 РОЗДІЛ 2. ТЕХНІЧНІ ЗАСОБИ ПРОВЕДЕННЯ ОЗОНОТЕРАПІЇ 22 2.1 Виробництво озону для медичних цілей 22 2.2 Принципи роботи озонаторів 28 2.3 Аналіз стану виробництва озонаторного обладнання 30 2.4 Висновки до розділу 2 49 РОЗДІЛ 3. МЕТОДИ ПІДВИЩЕННЯ ЕФЕКТИВНОСТІ ОЗОНОГЕНЕРАТОРІВ 50 3.1 Схемо-технічні методи підвищення продуктивності озоногенераторів 50 3.2 Висновки до розділу 3 66 РОЗДІЛ 4. ЕКСПЕРИМЕНТАЛЬНІ ДОСЛІДЖЕННЯ 67 4.1 Методи підвищення ефективності озоногенераторів 67 4.2 Висновки до розділу 4 73 РОЗДІЛ 5. СПЕЦАЛЬНА ЧАСТИНА 74 5.1 Методика проведення медико-біологічних досліджень 74 5.2 Обґрунтування вибору УДК напряму наукового дослідження 80 РОЗДІЛ 6. ОБГРУНТУВАННЯ ЕКОНОМІЧНОЇ ЕФЕКТИВНОСТІ 82 6.1 Науково-технічна актуальність науково-дослідної роботи 82 6.2 Розрахунок витрат на проведення науково-дослідної роботи 83 6.3 Науково-технічна ефективність науково-дослідної роботи 89 6.4 Висновки до розділу 6 93 РОЗДІЛ 7. ОХОРОНА ПРАЦІ ТА БЕЗПЕКА В НАДЗВИЧАЙНИХ СИТУАЦІЯХ 94 7.1 Охорона праці 94 7.2 Безпека в надзвичайних ситуаціях 97 РОЗДІЛ 8. ЕКОЛОГІЯ 103 8.1 Актуальність охорони навколишнього середовища 103 8.2 Основні джерела забруднення довкілля, що виникають у результаті виготовлення озоногенераторів 103 8.3 Заходи щодо зменшення забруднення довкілля 106 ЗАГАЛЬНІ ВИСНОВКИ 108 Бібліографія 110 ДОДАТКИ 112