Method of calculation of loads of the pipeline from dynamic influences in the flight time of the launch vehicle

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This article considers the solution of the problem of dynamic loading of the pipeline [1], which is necessary to supply fuel to the booster engine. The method of calculating the dynamic loading [2] of the pipeline is described. Its equation of motion is decomposed into components and loads are calculated for harmonic vibrations of the launch vehicle. The accelerations of the propulsion system and pipeline attachment points obtained from solving a general dynamic problem for estimating the hydrodynamic force for a launch vehicle were set as initial data for dynamic load calculation. At this stage, the load on the pipeline was calculated taking into account the hydraulic shock of the liquid mass in the event of the launch vehicle flight, as one of the most loaded for this system. Nonlinear dynamic analysis was used to calculate pipeline loads [3]. As a result of the calculation, the forces in the attachment points of the structure under consideration, as well as the forces distributed along the length of the pipeline, were obtained. The method of calculating the dynamic loading of the pipeline is described. Pipeline loads consist of quasi-static components, which usually include trajectory overloads and low-frequency dynamic components [4] from transient processes such as start-up, as well as additional loads from vibration and acoustic influences. Quasi-static and low-frequency dynamic components in loads [5] usually have a fairly high degree of certainty and, as a rule, are estimated by calculation using appropriate RCN models and attachments. The loads obtained in this way cover the low-frequency part of the spectrum up to 20-30 Hz. Spatial beam models [6] with elastic supports and kinematic connections with tank bottoms and propulsion system are usually used for pipelines. When calculating the force factors in the sections of pipelines (longitudinal and shearing forces, bending and torques, forces in the support nodes), the fuel is allowed to be considered frozen (without taking into account the speed of movement). The fluid velocity should be taken into account when assessing the pressure of hydraulic shocks in pipelines to calculate the stress-strain state of pipelines from internal pressure.

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Quasistatics, dynamic model, finite element model, overload, transient, pipeline, water hammer, launch vehicle

Короткий адрес: https://sciup.org/148323604

IDR: 148323604   |   DOI: 10.37313/1990-5378-2021-23-6-78-82

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