Центральноукраїнський науковий вісник. Технічні науки. Випуск 1. - 2019

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Author: search.filters.author.Kononchuk, S.Has files: Yes

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    Принципи побудови математичної моделі газогенераторного процесу
    (ЦНТУ, 2019) Конончук, C. В.; Скрипник, О. В.; Свяцький, В. В.; Конончук, С. В.; Скрипник, О. В.; Свяцкий, В. В.; Kononchuk, S.; Skrypnyk, O.; Sviatskyi, V.
    В статті запропоновано новий підхід до вивчення взаємозв’язку між основними параметрами газогенераторного процесу; оригінальні методики розрахунків матеріального та теплового балансів процесу газифікації твердого палива; спосіб реалізації математичної моделі газогенераторного процесу на комп’ютері. В статье предложен новый подход в исследовании взаимосвязей между основными параметрами газогенераторного процесса; оригинальные методики расчета материального и теплового балансов процесса газификации твердого топлива; способ реализации математической модели газогенераторного процесса на компьютере. The need for the development and introduction of technologies in Ukraine that are capable of providing energy resources savings, improving sanitary and hygienic and economic indicators of production, encourage the search for and use of alternative energy sources, including gasification of solid fuels of local sources in gas generators. To solve problems of forecasting and optimization of the gas generator process on the basis of the study of the relationship between its parameters, as well as the calculation of the material and thermal balance of the gas generator, the principles of detection of the laws of heat and mass exchange, as well as the invention of the mathematical description of the process, taking into account the type of the gas generator process (direct, horizontal), quantity, temperature and chemical composition of fuel and blast. In order to study the relationship between the most important parameters of the gas generator process, a laboratory plant was developed in which the reverse gas generator process was implemented. However, the conduct of experimental studies in the variation of a large number of input parameters leads to an increase in the number of field experiments, given their complexity, is limited by great difficulties. Therefore, of the three possible types of mathematical models (theoretical, mixed and statistical) for gas generators in the present conditions, it is expedient to construct models of mixed type, when the mathematical structure of the model is determined theoretically, and the identification of the model is carried out using experimental data. The gas generator is considered as a static object with lumped parameters. The original methods of calculating the material and thermal balance of the gasification process of solid fuel have been developed, taking into account the variation of the input parameters. A block diagram of the solution of the problem of determining the temperature dependence of the generator gas and its amount from the air flow, which allows obtaining a computer program for solving this problem, has been developed. The given method of mathematical modeling of the gas-generating process allows to solve problems of forecasting and optimization of this process, gives the possibility of practical use of mathematical model at designing and operation of gas generators at enterprises of different industries.
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    Комбіновані методи обробки глибоких отворів
    (ЦНТУ, 2019) Свяцький, В. В.; Скрипник, О. В.; Сіса, О. Ф.; Конончук, С. В.; Свяцкий, В. В.; Скрипник, О. В.; Сиса, О. Ф.; Конончук, С. В.; Sviatskyi, V.; Skrypnyk, О.; Sisa, O.; Kononchuk, S.
    Наведено схеми розвантаження свердла, що основані на використанні комбінованої обробки „різання — пластична деформація” і підведенням мастильно-охолодного технічного засобу з надлишковим тиском. Способи вирішують задачі зниження складових технологічного навантаження і дозволяють розширити технологічні можливості процесу свердління по глибині обробки. Приведены схемы разгрузки сверла, основанные на использовании комбинированной обработки „резани – пластическая деформация” и подводом смазывающе-охлаждающего технического средства с избыточным давлением. Способы решают задачу снижения составляющих технологической нагрузки и позволяют расширить технологические возможности процесса сверления по глубине обработки. The drilling of deep openings is a labor-intensive technological process, especially when processing viscous materials. In the system "machine-fixture-tool-workpiece" with deep drilling in the most difficult conditions the tool – a drill. Closed processing volume, various functions, the implementation of which must provide the design of the tool, forced mode of cutting forced to work the drill body, its cutting and guiding elements with high stresses. Typically, the process of drilling deep openings is carried out on special or aggregate machines using a device containing a drill installed on a tubular stalk with ducts for chip removal and a lubricant receiving system for supplying a lubricating and cooling technical device under pressure. In the process of processing, the stem of the drill is under the influence of the axial component of the cutting force, which leads to its longitudinal bending and, consequently, to reduce the accuracy of the machining and stability of the tool. Optimization of the process of deep drilling is reduced, as a rule, to the removal of certain technical limitations on the stability, strength or stiffness of the drill. However, the possibility of increasing the stiffness of the tool due to the change in the shape of the cross section of the stem of the drill is currently sufficiently studied and practically exhausted. The above theoretical and experimental studies show that the control of the load of the tool stem along the axial component of the cutting force and the resistance forces is fundamentally possible with the use of processes of combined processing of openings. Developed methods of processing deep openings solve the problem of reducing the components of technological load and allow you to expand the technological capabilities of the drilling process at the depth of processing.