Simulation of the flow characteristics of a drip irrigation emitter with large eddy methods

Mathematical and Computer Modelling Pub Date : 2013-08-01 DOI:10.1016/j.mcm.2011.10.074

Dan Wu , Yun-kai Li , Hai-sheng Liu , Pei-ling Yang , Hao-su Sun , Yao-ze Liu

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引用次数: 29

Abstract

Realizing the internal flow visualization inside the drip irrigation emitter is the basis of optimizing the labyrinth path structure and promoting its anti-clogging capability. The Computational Fluid Dynamics (CFD) method has become an effective approach to research the water movement in the labyrinth path of the drip irrigation emitter. In this paper, the standard k- $ε$ model and the Large Eddy Simulation method (LES) were applied to analyze the flow characteristic in the drip irrigation emitter. The results showed that the LES model was more effective to simulate the flow characteristics in the flow path of drip irrigation emitters. Based on this model, the energy dissipation mechanism was explained with the velocity and pressure values from local regions to the whole flow path, and the study of the flow path anti-clogging performance was carried out by way of analyzing the velocity distribution characteristics in different cross sections of the same structure unit.

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用大涡法模拟滴灌灌水器的流动特性

实现滴灌灌水器内部流动可视化是优化迷宫路径结构，提高其抗堵塞能力的基础。计算流体动力学(CFD)方法已成为研究滴灌灌水器迷宫路径中水运动的有效手段。本文采用标准k-ε模型和大涡模拟方法(LES)对滴灌灌水器内的流动特性进行了分析。结果表明，LES模型能较好地模拟滴灌喷管流道内的流动特性。基于该模型，从局部到整个流道的速度和压力值解释了能量耗散机理，并通过分析同一结构单元不同截面的速度分布特性，对流道抗堵塞性能进行了研究。

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