水力学中与水锤相关的泛函微分方程的稳定性结果

IF 1.1 4区数学 Q1 MATHEMATICS

Electronic Journal of Qualitative Theory of Differential Equations Pub Date : 2022-01-01 DOI:10.14232/ejqtde.2022.1.19

V. Răsvan

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引用次数: 5

摘要

考虑了水电厂水锤的两组偏微分方程组，其中包括水轮机隧道、水轮机压力管、调压箱和水轮机的动力学。在标准简化假设(可忽略Darcy-Weisbach损失和动态水头变化)下，可以将具有两个时滞的中立型泛函微分方程系统与上述偏微分方程关联起来，并可以建立存在性、唯一性和连续数据依赖性。然后用由能量恒等式推导出的李雅普诺夫泛函讨论了稳定性。李雅普诺夫泛函是“弱”的，即它的导数函数只是非正定的。因此，只得到Lyapunov稳定性，而对于渐近稳定性则需要应用Barbashin-Krasovskii-LaSalle不变性原理。其有效性的一个必要条件是与中立型系统相关的差分算子的渐近稳定性。然而，在给定情况下，它的性质使得它的渐近稳定性在延迟比的一些算术性质的函数中是非鲁棒的(脆弱的)。

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Stability results for the functional differential equations associated to water hammer in hydraulics

There is considered a system of two sets of partial differential equations describing the water hammer in a hydroelectric power plant containing the dynamics of the tunnel, turbine penstock, surge tank and hydraulic turbine. Under standard simplifying assumptions (negligible Darcy–Weisbach losses and dynamic head variations), a system of functional differential equations of neutral type, with two delays, can be associated to the aforementioned partial differential equations and existence, uniqueness and continuous data dependence can be established. Stability is then discussed using a Lyapunov functional deduced from the energy identity. The Lyapunov functional is "weak" i.e. its derivative function is only non-positive definite. Therefore only Lyapunov stability is obtained while for asymptotic stability application of the Barbashin–Krasovskii–LaSalle invariance principle is required. A necessary condition for its validity is the asymptotic stability of the difference operator associated to the neutral system. However, its properties in the given case make the asymptotic stability non-robust (fragile) in function of some arithmetic properties of the delay ratio.

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来源期刊

Electronic Journal of Qualitative Theory of Differential Equations 数学-数学

CiteScore

1.40

自引率

9.10%

发文量

审稿时长

3 months

期刊介绍： The Electronic Journal of Qualitative Theory of Differential Equations (EJQTDE) is a completely open access journal dedicated to bringing you high quality papers on the qualitative theory of differential equations. Papers appearing in EJQTDE are available in PDF format that can be previewed, or downloaded to your computer. The EJQTDE is covered by the Mathematical Reviews, Zentralblatt and Scopus. It is also selected for coverage in Thomson Reuters products and custom information services, which means that its content is indexed in Science Citation Index, Current Contents and Journal Citation Reports. Our journal has an impact factor of 1.827, and the International Standard Serial Number HU ISSN 1417-3875. All topics related to the qualitative theory (stability, periodicity, boundedness, etc.) of differential equations (ODE''s, PDE''s, integral equations, functional differential equations, etc.) and their applications will be considered for publication. Research articles are refereed under the same standards as those used by any journal covered by the Mathematical Reviews or the Zentralblatt (blind peer review). Long papers and proceedings of conferences are accepted as monographs at the discretion of the editors.