Динамічна модель імпульсного торцевого ущільнення
Дата
2016
ORCID
DOI
10.20998/2413-4295.2016.18.12
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Назва журналу
Номер ISSN
Назва тому
Видавець
НТУ "ХПІ"
Анотація
Розроблена математична модель імпульсного торцевого ущільнення, яка враховує можливість подачі стискуваного затворного середовища безпосередньо в робочий зазор через живильні канали. Модель може бути використана для визначення основних динамічних характеристик ущільнення та визначення реакції рухомого торцевого кільця на вхідні армонійні зміни зовнішніх впливів. В моделі застосований чисельний метод раничних елементів, за допомогою якого визначено розподіл тиску в торцевому зазорі ущільнення.
Double mechanical shafts seals with gas lubrication constructions are widely used in modern machine engineering for sealing the centrifugal machines, pumping aggressive, cryogenic substances and the melts. These constructions mainly use creating and maintaining a stable value for gas-dynamic method and the special microgrooves to draw the barrier gas into sealing gap are shaped to draw the barrier gas into the sealing gap. This article deals with the mathematical model of the pulse gas-barrier mechanical seal dynamics that synchronically use both gas-static and gas-dynamic methods of maintaining the contactless mode of operation, and is out of the disadvantages inherent for seals with microgrooves. The aim of this work is to develop a mathematical model of pulse seal functioning dynamics. The object of the research is the workflow of the seal. Іt is necessary to complement the existing method of pulse seals parameters calculation, and propose a methodology of operation gap pressure distribution calculation for achieve the objectives of the study. This model applies the numerical boundary element method, which allows to determine the pressure distribution in the operation gap due to the Reynolds equation. The model can be used to define the response of the movable face ring for the harmonic changes of external influences as well as for the frequencies risky range identification and for selecting such parameters of the seal where the movable ring oscillation amplitude would not be exceed by the allowable limits.
Double mechanical shafts seals with gas lubrication constructions are widely used in modern machine engineering for sealing the centrifugal machines, pumping aggressive, cryogenic substances and the melts. These constructions mainly use creating and maintaining a stable value for gas-dynamic method and the special microgrooves to draw the barrier gas into sealing gap are shaped to draw the barrier gas into the sealing gap. This article deals with the mathematical model of the pulse gas-barrier mechanical seal dynamics that synchronically use both gas-static and gas-dynamic methods of maintaining the contactless mode of operation, and is out of the disadvantages inherent for seals with microgrooves. The aim of this work is to develop a mathematical model of pulse seal functioning dynamics. The object of the research is the workflow of the seal. Іt is necessary to complement the existing method of pulse seals parameters calculation, and propose a methodology of operation gap pressure distribution calculation for achieve the objectives of the study. This model applies the numerical boundary element method, which allows to determine the pressure distribution in the operation gap due to the Reynolds equation. The model can be used to define the response of the movable face ring for the harmonic changes of external influences as well as for the frequencies risky range identification and for selecting such parameters of the seal where the movable ring oscillation amplitude would not be exceed by the allowable limits.
Опис
Ключові слова
динамічні характеристики, метод раничних елементів, рівняння Рейнольдса, dynamic characteristics, boundary element method, Reynolds equation
Бібліографічний опис
Кузнєцов Е. Г. Динамічна модель імпульсного торцевого ущільнення / Е. Г. Кузнєцов // Вісник Нац. техн. ун-ту "ХПІ" : зб. наук. пр. Темат. вип. : Нові рішення в сучасних технологіях = Bulletin of National Technical University "KhPI" : coll. of sci. papers. Ser. : New solutions in modern technologies. – Харків : НТУ "ХПІ" , 2016. – № 18 (1190). – С. 8-85.