Global controllability between steady supercritical flows in channel networks

Gugat M; Leugering G; Schmidt EJPG

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Global controllability between steady supercritical flows in channel networks

机译：通道网络中稳定超临界流之间的全局可控性

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We consider a tree-like network of open channels with outflow at the root. Controls are exerted at the boundary nodes of the network except for the root. In each channel, the flow is modelled by the de St. Venant equations. The node conditions require the conservation of mass and the conservation of energy. We show that the states of the system can be controlled within the entire network in finite time from a stationary supercritical initial state to a given supercritical terminal state with the same orientation. During this transition, the states stay in the class of C-1-functions, so no shocks occur. Copyright (C) 2004 John Wiley Sons, Ltd.

机译：我们考虑一个开放渠道的树状网络，其根源是流出。控制是在网络的边界节点（根除外）上施加的。在每个通道中，流量均通过de St. Venant方程建模。节点条件要求质量守恒和能量守恒。我们表明，可以在有限的时间内从固定的超临界初始状态到具有相同方向的给定超临界终端状态，在整个网络中控制系统的状态。在此过渡期间，状态保持在C-1功能类别中，因此不会发生电击。版权所有（C）2004 John Wiley Sons，Ltd.

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《Mathematical Methods in the Applied Sciences》 |2004年第7期|共22页
作者
Gugat M; Leugering G; Schmidt EJPG;
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正文语种 eng
中图分类数学;
关键词
St. Venant equations; network; node conditions; supercritical states; global controllability; BOUNDARY CONTROLLABILITY; EQUATIONS; SYSTEMS;

机译：圣维南方程;网络;节点条件;超临界状态;全局可控性;边界可控制性;方程;系统;

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1. Global controllability between steady supercritical flows in channel networks [J] . Gugat M, Leugering G, Schmidt EJPG Mathematical Methods in the Applied Sciences . 2004,第7期

机译：通道网络中稳定超临界流之间的全局可控性
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Global controllability between steady supercritical flows in channel networks

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