A.S. Shostak scite author profile

A.S. Shostak

5Publications

11Citation Statements Received

1Citation Statement Given

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Affiliations

Tomsk State University of Control Systems and Radio-Electronics, Delft University of Technology, Japan External Trade Organization

Publications

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Design, Analysis, and Optimization of RTG for Solar Polar Mission

Schock¹,

Shostak²,

Sookiazian³

1979

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The paper presents the conceptual design of an RTG, employing stacked radioisotope heat source modules and silicongermanium thermoelectric couples, for use on the joint NASA/ESA International SolarPolar Mission, to be launched in early 1983,The use of stacked heat source modules in RTGs requires a structural support system which holds the stack together during launch, but allows it to disassemble when the generator housing melts during reentry. This is a much more difficult support problem than in the case of a monolithic heat source. A proposed, lightweight scheme for solving this problem is described and analyzed. A detailed analytical model of the RTG and the space craft to which it is attached was constructed, and a NASTRAN analysis was carried out to assess the structural performance of the heat source support scheme under differential thermal expansion and dynamic launch loads, to determine the system's characteristic frequencies, the loads transmitted to the RTG, and the resultant stresses and displacements. The analytical results presented con firm the structural feasibility of the heat source support scheme.The paper also describes a detailed thermal analysis and a computer program which, for a given set of assumptions and ground rules, can rapidly examine thousands of design variations and deter mine the combination of design parameters which will minimize the RTG weight for a given power output. Graphical results are pre sented to illustrate design trends and clarify the optimization procedure. The generated results lead to interesting and somewhat unexpected conclusions about optimum design parameters, the relative constancy of RTG specific power over a wide power range, comparisons between single and split RTGs, sensitivity to variations in heat source module design, weight comparisons with the MHW RTG, and com parative RTG weights for different housing and radiator fin materials, I.

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Single-Shaft Turbopumps in Liquid Propellant Rocket Engines

Demiyanenko¹,

Dmitrenko²,

Rachuk³

et al. 2006

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Analysis of a linear dipole antenna system for measurement the complex dielectric permittivity

Shostak¹,

Zagoskin²,

Ligthart³

et al.

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Influence of the dielectric properties of inhomogeneous soil on the dipole antennas' normalized impedance

Zagoskin¹,

Batsula²,

Iljushenko³

et al.

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Бывают Ли Осциллографы Для Электромагнитного Поля?

Shostak¹,

Kondrashov²,

Suthau³

et al. 2019

Electronics: STB Russia

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Рассмотрено применение датчика поля LSProbe 1.2 компании LUMILOOP GmbH для измерения напряженности импульсных электромагнитных полей. Отмечено, что LSProbe 1.2 – это своего рода «осциллограф» для электромагнитного поля, он измеряет амплитуды полей высокой напряженности и регистрирует их значения во временной области, которые отображаются благодаря сопутствующему программному обеспечению.

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A.S. Shostak

Design, Analysis, and Optimization of RTG for Solar Polar Mission

Single-Shaft Turbopumps in Liquid Propellant Rocket Engines

Analysis of a linear dipole antenna system for measurement the complex dielectric permittivity

Influence of the dielectric properties of inhomogeneous soil on the dipole antennas' normalized impedance

Бывают Ли Осциллографы Для Электромагнитного Поля?

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