Influence of surface permeability on gas-dynamic characteristics of high-speed flight

The vector form intrinsic finite element (VFIFE) method is springing up as a new numerical method in strong non-linear structural analysis for its good convergence, but has been constricted in static or transient analysis. To overwhelm its disadvantages, a new damping model was proposed: the value of damping force is proportional to relative velocity instead of absolute velocity, which could avoid inaccuracy in high-speed dynamic analysis. The accuracy and efficiency of the proposed method proved under low speed; dynamic characteristics and vibration rules have been verified under high speed. Simulation results showed that the modified VFIFE method could obtain numerical solutions with good efficiency and accuracy. Based on this modified method, high-speed vibration rules of spiral bevel gear pair under different loads have been concluded. The proposed method also provides a new way to solve high-speed rotor system dynamic problems.

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Investigation of acoustic and gas dynamic characteristics of strongly swirled turbulent jets

Journal of Physics Conference Series ◽

10.1088/1742-6596/980/1/012017 ◽

2018 ◽

Vol 980 ◽

pp. 012017

Author(s):

S Yu Krasheninnikov ◽

VP Maslov ◽

AK Mironov ◽

PD Toktaliev

Keyword(s):

Dynamic Characteristics ◽

Turbulent Jets ◽

Gas Dynamic

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Dynamic characteristics of a drill in the drilling process

Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture ◽

10.1243/095440503321148803 ◽

2003 ◽

Vol 217 (2) ◽

pp. 161-167 ◽

Cited By ~ 10

Author(s):

B W Huang

Keyword(s):

Dynamic Characteristics ◽

High Speed ◽

Thrust Force ◽

Time Dependent ◽

Drilling Process ◽

Improve Quality ◽

Vibration Model ◽

High Speed Drilling ◽

Spinning Speed ◽

Twisted Beam

The dynamic characteristics of high-speed drilling were investigated in this study. To improve quality and produce a higher production rate, the dynamic characteristics of the drilling process need to be studied. A pre-twisted beam is used to simulate the drill. The moving Winkler-type elastic foundation is used to approximate the drilling process. A time-dependent vibration model for drilling is presented. The spinning speed, pre-twisted angle and thrust force effects of the drill are considered. The numerical analysis indicates that the natural frequency is suddenly reduced as the drill moves into a workpiece.

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Radiation Effects of Heavy Ions on the Static and Dynamic Characteristics of 850 nm High-Speed Vertical Cavity Surface Emitting Lasers

Journal of Luminescence ◽

10.1016/j.jlumin.2021.118136 ◽

2021 ◽

pp. 118136

Author(s):

Xiaoting Shan ◽

Bo Li ◽

Fazhan Zhao ◽

Lei Wang ◽

Yun Sun ◽

...

Keyword(s):

Dynamic Characteristics ◽

Heavy Ions ◽

High Speed ◽

Radiation Effects ◽

Cavity Surface ◽

Static And Dynamic Characteristics ◽

Surface Emitting Lasers ◽

Vertical Cavity Surface ◽

Emitting Lasers ◽

Vertical Cavity

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Analysis of the dynamic characteristics of downsized aerostatic thrust bearings with different pressure equalizing grooves at high or ultra-high speed

Advances in Mechanical Engineering ◽

10.1177/16878140211018078 ◽

2021 ◽

Vol 13 (5) ◽

pp. 168781402110180

Author(s):

Ruzhong Yan ◽

Haojie Zhang

Keyword(s):

Dynamic Characteristics ◽

High Speed ◽

Rotation Speed ◽

Dynamic Stiffness ◽

Simulation Method ◽

Perturbation Amplitude ◽

Thrust Bearings ◽

Supply Pressure ◽

Ultra High Speed ◽

Air Film

This study adopts the DMT(dynamic mesh technology) and UDF(user defined functions) co-simulation method to study the dynamic characteristics of aerostatic thrust bearings with equalizing grooves and compare with the bearing without equalizing groove under high speed or ultra high speed for the first time. The effects of air film thicness, supply pressure, rotation speed, perturbation amplitude, perturbation frequency, and cross section of the groove on performance characteristics of aerostatic thrust bearing are thoroughly investigated. The results show that the dynamic stiffiness and damping coefficient of the bearing with triangular or trapezoidal groove have obvious advantages by comparing with that of the bearing without groove or with rectangular groove for the most range of air film thickness, supply pressure, rotation speed, perturbation amplitude, especially in the case of high frequency, which may be due to the superposition of secondary throttling effect and air compressible effect. While the growth range of dynamic stiffness decreases in the case of high or ultra-high rotation speed, which may be because the Bernoulli effect started to appear. The perturbation amplitude only has little influence on the dynamic characteristic when it is small, but with the increase of perturbation amplitude, the influence becomes more obvious and complex, especially for downsized aerostatic bearing.

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Development of High-Speed Response Electromagnetic Linear Actuator Using for Pneumatic Control Valve

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.532.41 ◽

2014 ◽

Vol 532 ◽

pp. 41-45 ◽

Cited By ~ 1

Author(s):

Myung Jin Chung

Keyword(s):

Optimal Design ◽

Dynamic Characteristics ◽

High Speed ◽

Design Method ◽

Control Valve ◽

Design Parameters ◽

Linear Actuator ◽

Analytic Model ◽

Electromagnetic Linear Actuator ◽

Quadratic Programming Method

Analytic model of electromagnetic linear actuator in the function of electric and geometric parameters is proposed and the effects of the design parameters on the dynamic characteristics are analyzed. To improve the dynamic characteristics, optimal design is conducted by applying sequential quadratic programming method to the analytic model. This optimal design method aims to minimize the response time and maximize force efficiency. By this procedure, electromagnetic linear actuator having high-speed characteristics is developed.

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Synthesis and Analysis of a Combined Magnetic and Gas Dynamic Suspension for a Model Range of New-Generation High-Speed Micro Gas Turbine Power Units

Elektrichestvo ◽

10.24160/0013-5380-2021-11-5-17 ◽

2021 ◽

pp. 5-17

Author(s):

Sergey A. GANDZHA ◽

◽

Nikolay I. NEUSTROEV ◽

Pavel A. TARANENKO ◽

◽

...

Keyword(s):

Gas Turbine ◽

High Speed ◽

Turbine Unit ◽

Electrical Machine ◽

Gas Turbine Unit ◽

Micro Gas Turbine ◽

Gas Dynamic ◽

Study Results ◽

Generator Design ◽

New Generation

The modern power industry is characterized by intense development of distributed generation, with which numerous sources of different capacities are connected into a single network. This makes it possible to improve the reliability of the entire system, since the probability of several sources to fail simultaneously is quite low. Electric generation based on high-speed gas turbine units accounts for a significant share in the overall balance, due to which scientific research and new engineering solutions in this area are important and relevant. An innovative design of a high-speed gas turbine unit based on a switched axial generator is proposed. This electrical machine has a diamagnetic armature, which eliminates magnetic losses, due to which better efficiency of the power unit is achieved and its design is simplified. The high speed of rotation and the presence of critical resonant rotor speeds generated the need to adopt appropriate engineering decisions in regard of its supports. A combined suspension involving the use of magnetic and gas-dynamic bearings is proposed. The magnetic bearings support the gas turbine unit operation at low speeds during its acceleration, and the gas-dynamic bearings support its operation at high nominal speed. The generator design and the combined suspension layout are shown. The numerical analyses of magnetic and gas-dynamic bearings for a gas turbine unit for a capacity of 100 kW and rotation speed of 70 000 rpm are given. The study results can be used for a series of gas turbine units with capacities ranging from 10 to 500 kW. In our opinion, this concept is competitive with modern analogs with a radial generator design.

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INFLUENCE OF GAS-DYNAMIC TESTING RIG PIPELINES MATERIAL ON THEIR DYNAMIC CHARACTERISTICS

ВЕСТНИК ВОРОНЕЖСКОГО ГОСУДАРСТВЕННОГО ТЕХНИЧЕСКОГО УНИВЕРСИТЕТА ◽

10.36622/vstu.2021.15.5.017 ◽

2021 ◽

pp. 118-125

Author(s):

А.В. Саврико ◽

С.Н. Лымич ◽

К.В. Кружаев ◽

В.С. Левин ◽

А.В. Москвичев

Keyword(s):

Flow Rate ◽

Dynamic Characteristics ◽

Dynamic Testing ◽

Analytical Calculation ◽

Working Fluid ◽

Factors Affecting ◽

Pressure Losses ◽

Steel Pipes ◽

Gas Dynamic ◽

Friction Pressure

Приведено исследование зависимости газодинамических характеристик стенда от применяемого материала трубопровода. Oсновополагающими факторами, влияющими на работоспособность стенда, являются выходные параметры - давление и расход рабочего тела, которые напрямую зависят от потерь давления на трение, создаваемого элементами стенда. Для оценки степени влияния материалов на потери стенда выбраны два вида труб: полипропиленовые и металлические. Аналитические расчёты потери давления рассматриваемых трубопроводов из различного материала показали, что трубопроводы из полипропилена предпочтительнее. Однако при проведении эксперимента получены противоположные данные, которые показали, что в полипропиленовых магистралях возможно присутствие значительного количества диафрагм: в местах пайки труб, образовавшихся в процессе изготовления. Именно этот факт способствует существенному повышению значений сопротивлений в полипропиленовых трубопроводах на 20 % по сравнению со стальными трубами, где диафрагмы отсутствуют. В результате проведения исследования был введен коэффициент, учитывающий влияние диафрагм полипропиленового трубопровода при аналитическом расчете на сопротивление. Для сохранения более точных снимаемых значений с газодинамических стендов целесообразнее использовать трубопроводы из металла, в которых рассчитать потери возможно с отклонениями до 3 % Here we give the study of the dependence of the gas-dynamic characteristics of the stand on the pipeline material used. The fundamental factors affecting the performance of the stand are the output parameters-the pressure and flow rate of the working fluid, which directly depend on the friction pressure losses created by the elements of the stand. To assess the degree of influence of materials on the losses of the stand, we selected two types of pipes: polypropylene and metal. Analytical calculations of the pressure loss of the considered pipelines made of various materials have shown that pipelines made of polypropylene are preferable. However, during the experiment, we obtained the opposite data, which showed that a significant number of diaphragms may be present in polypropylene pipelines: in the places of soldering of pipes formed during the manufacturing process. This fact contributes to a significant increase in the resistance values in polypropylene pipelines by 20 % compared to steel pipes, where there are no diaphragms. As a result of the study, we introduced a coefficient that takes into account the influence of polypropylene pipeline diaphragms in the analytical calculation of resistance. To preserve more accurate values taken from gas-dynamic stands, it is more expedient to use metal pipelines in which it is possible to calculate losses with deviations of up to 3 %

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