Fluidic gates simulated with lattice Boltzmann method under different Reynolds numbers

Tsompanas Michail-Antisthenis; Adamatzky Andrew

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Fluidic gates simulated with lattice Boltzmann method under different Reynolds numbers

机译：不同雷诺数下用格子玻尔兹曼方法模拟的流体门

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Fluidic devices use fluid as a medium for information transfer and computation. Boolean values are represented by the presence of fluid jets in the input and output channels. Velocity of a fluid is one of the parameters determining Reynolds number of the flow. Reynolds number is a parameter that characterizes the behaviour of the flow: laminar, transient or turbulent. Using lattice Boltzmann method we study the behaviour of fluidic gates for various Reynolds numbers. On the designs of AND and OR gates we show the fluidic gates remain functional even for low Reynolds numbers, like 100. The gates designed can be cascaded into functional logical circuits. (C) 2018 Elsevier B.V. All rights reserved.

机译：流体设备将流体用作信息传递和计算的介质。布尔值由输入通道和输出通道中流体射流的存在表示。流体的速度是确定流雷诺数的参数之一。雷诺数是表征流动特性的参数：层流，瞬态或湍流。使用格子玻尔兹曼方法，我们研究了各种雷诺数的流体门的行为。在“与”门或“或”门的设计中，我们显示出即使对于低雷诺数（例如100），射流门仍然可以正常工作。设计的门可以级联为功能逻辑电路。（C）2018 Elsevier B.V.保留所有权利。

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来源
《Journal of computational science》 |2018年第9期|51-58|共8页
作者
Tsompanas Michail-Antisthenis; Adamatzky Andrew;
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作者单位

Univ West England, Dept Comp Sci & Creat Technol, Unconvent Comp Lab, Bristol, Avon, England;

Univ West England, Dept Comp Sci & Creat Technol, Unconvent Comp Lab, Bristol, Avon, England;

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正文语种 eng
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Fluidic logic gates; Reynolds number; Lattice Boltzmann method; Multiple-relaxation-time;

机译：流体逻辑门;雷诺数;格子玻尔兹曼法;多重弛豫时间;

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Fluidic gates simulated with lattice Boltzmann method under different Reynolds numbers

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