OpenFOAM简化通道建模análisis

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY Ingenieria Solidaria Pub Date : 2023-08-04 DOI:10.16925/2357-6014.2023.02.01
Mónica Yineth Lara Pérez, Elías Daniel David Nova Burgos, Martha Patricia Montenegro Carrillo, Angélica María Tibidor Jara
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摘要

简介:本文是圣大学Tomás在2022年开发的“open foam减少的明渠模型分析”研究的产物,集成了计算流体动力学(cfd),在多相,各向同性,等温,湍流和稳态流动减少的明渠中。问题:饮用水供应需要有效的处理,为了实现这一点,必须详细了解处理厂单元的水动力和物理化学过程。仿真用于降低成本和执行多个实验。鲁棒的水力参数读出系统提高了建模[1]的可靠性。实验数据来源越大,模型越可靠。目的:使读者熟悉学习和优化人类供水常规处理系统的工具。研究还有助于确保环境的可持续性和减少无法持续获得水和卫生服务的人口比例,特别是在缺乏水基础设施是一个普遍问题的农村地区。方法:利用Openfoam求解器,利用能量、质量和动量守恒方程对复杂湍流模型进行模拟。结果:从时间5952开始存在收敛,因为在此时间之后,大多数残差极限值的顺序为10-3和10-4,并且考虑到当前的技术状态,如果残差与这些值的顺序相同,则解已经收敛。对计算流体动力学的知识作出了贡献,为圣托马斯大学土木工程学院的学生提供了一种渠道建模方法,以促进未来的研究,从而在制度上加强了Openfoam对水运系统复杂问题建模的使用。
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OpenFOAM reduced channel modeling análisis
Introduction: The article is a product of the research “Analysis of open channel models with reduction in Openfoam” developed at Universidad Santo Tomás in 2022 integrating computational fluid dynamics (cfd), in an open channel with reduction of multiphase, isotropic, isothermal, turbulent and steady state flow. Problem: Drinking water supply requires efficient treatment, and to achieve this, the hydrodynamic and physicochemical processes of the treatment plant units must be known in detail. Simulation is used to reduce costs and to perform multiple experiments. A robust hydraulic parameter readout system increases the reliability of modeling [1]. The larger source of experimental data leads to a more reliable model. Objective: Familiarize the reader with the tools for learning and optimization of conventional treatment systems for human water supply. Research also contributes to ensuring environmental sustainability and reducing the proportion of people without sustainable access to water and sanitation services, especially in rural areas where lack of water infrastructure is a prevalent problem. Method: Simulation of complex turbulence models by means of energy, mass and momentum conservation equations by means of Openfoam solvers. Results: There is a convergence since time 5952, since after this time most of the residual limit values are in the order of 10-3 and 10-4, and taking into account the state of the art which states that the solution has converged if the residual is in the order of these values Conclusions: A contribution has been made to the knowledge of computational fluid dynamics, generating an approach to the modeling of channels to the students of the civil engineering faculty of the Santo Tomas University, for advances in future research, thus strengthening in an institutional way the use of Openfoam for the modeling of complex problems in water transport systems.
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Ingenieria Solidaria
Ingenieria Solidaria ENGINEERING, MULTIDISCIPLINARY-
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