Influence of long-term stay of elements of capillary intake devices in liquid propellant components on their parameters

Minai, Oleksandr; Иванов, О. А.; Siedykh, Ihor

doi:10.3897/arb.v32.e15

Cited by 2 publications

(1 citation statement)

References 4 publications

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“…Для досягнення основної мети дослідження -визначення зменшення діаметрів дротів та збільшення розмірів чарунок сіток КРФ в наслідок корозійного враження основного конструкційного матеріалу сітки нержавіючої сталі марки 12Х18Н10Т, були сформульовані наступні задачі: визначення наявності, типу та швидкості корозії сіток КРФ [5,6].…”

Section: постановка задачі дослідженняunclassified

Визначення Швидкості Корозії Основного Конструкційного Матеріалу Сіток Капілярних Розділювачів Фаз

Minai

2024

aktt

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The subject of this study is the corrosion processes that occur in the fuel tanks of spacecraft with a long service life, the engines of which operate on chemically aggressive fuel components (FC): nitrogen tetroxide (NT) and asymmetric dimethylhydrazine (NDMH). The goal is to determine the reduction of wire diameters and the increase of cell sizes of capillary phase separator grids (PSG) because of the corrosion effect of the main structural material of the 12X18H10T stainless steel grid. Task: establishing the presence, type, and rate of corrosion of the main structural material of the PSG nets. The methods used are as follows: to determine the presence of corrosion by studying the composition of substances found on the surface of the grids – X- ray fluorescence, X- ray structural, atomic absorption, potentiometric, turbodimetric, infrared spectroscopy, and chromato-mass spectrometry; to determine the type of corrosion-metallographic studies of mesh samples; to determine the rate of corrosion-measuring the geometric dimensions of mesh samples. The following results were obtained. The metal cations detected on the surface of the mesh samples correspond to the elements that make up the alloy of aluminum and steel - the main structural materials of the fuel tanks of launch vehicles; 12Х18Н10Т steel is not susceptible to local types of corrosion (pitting, intercrystalline, dot, contact, crevice, and stress corrosion cracking) in high-pressure and low-pressure tanks; the presence of a continuous (uniform) corrosion effect on the surface of the grid wires was established; dependences of changes in the main geometric parameters of the grids (wire diameters and cell sizes) over time were obtained, according to which the limits of the corrosion rates of stainless steel grade 12X18N10T in the liquid phase of NT and NDMG and in the gas phase were established; and coefficients of the maximum corrosion rate were calculated. Conclusions. The scientific novelty of the obtained results is as follows: for the first time, the presence, type, and rate of corrosion of the main structural material of the PSG grids because of their long-term operation (14...31 years) in the liquid phase of AT and NDMH and in the gas phase were determined using cross-methods.

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Section: постановка задачі дослідженняunclassified

Визначення Швидкості Корозії Основного Конструкційного Матеріалу Сіток Капілярних Розділювачів Фаз

Minai

2024

aktt

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Determination of the Optimum Design of the Means to Ensure Fuel Continuity Using the Method of Numerical Simulation

Minai,

Kuzmich

2024

Kosm. nauka tehnol.

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Residues of liquid propellant components in the power system of the propulsion system at the end of the operation of the launch vehicle stage significantly affect its energy characteristics. The fuel continuity features found in modern launch vehicle tanks ensure a continuous supply of propellant components from the tank to the propulsion system without disrupting flow and mini- mizing residues. In the fuel tank of launch vehicles, the presence of a tunnel pipeline complicates, and in certain cases excludes the possibility of taking fuel from the pole of the tank. Solving the problem of fuel intake, in this case, allows the use of means to ensure the continuity of fuel of the side type. However, the use of such a device, due to the displacement relative to the pole of the bottom of the tank by a certain angle of the sampling point, can lead to an uneven level of breakthrough and immersion of the boost gas at the inlet to the flow line and, as a result, a significant increase in the remainder of the fuel components. The authors searched for and substantiated the optimal design of the means for ensuring fuel continuity on the example of the fuel tank of the first stage of the Cyclone-4 launch vehicle, which is equipped with a side-type fuel continuity means in the form of a profiled plate (plate). The designs of siphon and annular fuel continuity means are considered. An analytical calculation was carried out using empirical dependences, a physical experiment, and a numerical simulation of their main parameters. Based on the work performed, a comparative analysis of the change in the energy characteristics of the launch vehicle depending on the chosen design was carried out. The efficiency of the operation of the considered means of ensuring the continuity of the fuel is determined in terms of the mass parameter of the remainder of the propellant components under static conditions. The result of the experimental and computational-analytical work was to obtain the most optimal variant of the fuel continuity means, which turned out to be a siphon according to several parameters. The introduction of a siphon means of ensuring continuity, as more optimal, into the design of the fuel tank of the Cyclone-4 launch vehicle will improve its energy characteristics by increasing the mass of the output payload by 5.4 kg. Also, using the numerical modeling methods (CFD methods) for design work on devel- opment, optimization, and improvement, instead of empirical and semi-empirical dependencies, allows you to: obtain more accurate results; reduce the number of experimental designs; reduce the required number of tests; reduce the duration of exami- nations; reduce the total duration of computational and design and experimental work; reduce the overall material and technical costs and, as a result, reduce the final cost of the development product, which will increase its competitiveness.

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Influence of long-term stay of elements of capillary intake devices in liquid propellant components on their parameters

Cited by 2 publications

References 4 publications

Визначення Швидкості Корозії Основного Конструкційного Матеріалу Сіток Капілярних Розділювачів Фаз

Визначення Швидкості Корозії Основного Конструкційного Матеріалу Сіток Капілярних Розділювачів Фаз

Determination of the Optimum Design of the Means to Ensure Fuel Continuity Using the Method of Numerical Simulation

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