Experimental Validation of Computer Fluid Dynamics Simulation aimed on Pressure Distribution on Gable Roof of Low-rise Building

机译：计算机流体动力学模拟的实验验证旨在对低层建筑山墙屋盖压力分布

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Modeling of air flow over buildings belongs to a challenge that was accepted by several authors. There are couple reasons for it, from which the most frequent is simulation in order to obtain pressure or external pressure coefficients distributions. These simulations are always a balance between accuracy and computer needs and consumed time. Aim of this contribution is to validate Computer Fluid Dynamics (CFD) simulation by experimental measurement in Boundary Layer Wind Tunnel (BLWT). A low-rise building with gable roof will be examined and results will be compared to wind tunnel test. For the purpose of this simulation were chosen Delayed Detached Eddy Simulation (DDES) and Scale-Adaptive Simulation (SAS) turbulence models. It is observed that the DDES model failed in predicting pressures around the roof ridge. The average deviations on the gable roof from the BLWT measurements are 37.2 % for DDES and 26.7 % for SAS model.

机译：建筑物的空气流建模属于几个作者所接受的挑战。有些原因是它，最频繁的是模拟，以获得压力或外部压力系数分布。这些模拟始终是准确性和计算机需求和消耗时间之间的平衡。这种贡献的目的是通过边界层风洞（BLWT）的实验测量来验证计算机流体动力学（CFD）仿真。将检查带有山墙屋顶的低层建筑，并将结果与风洞试验进行比较。出于该模拟的目的被选择延迟分离涡流模拟（DDES）和刻度自适应仿真（SAS）湍流模型。观察到DDE模型在预测屋顶脊周围的压力方面失败。对于SAS模型的DDES，山墙屋顶上的平均偏差为37.2％，26.7％。

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《International Conference on Structural and Physical Aspects of Construction Engineering》|2017年|690 p.|共8页
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Juraj Kralik; Lenka Konecna; Dagmar Lavrincikova;
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中图分类建筑结构;
关键词
experiment; Ansys; airflow; presure; presure coeficients; gable roof;

机译：实验;ANSYS;气流;压力;压力系数;山墙屋顶;

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专利

1. 筛管内同化物运输所需压力梯度的流体动力学模拟实验 [J] . 雍化年植物学报：英文版 . 1989,第005期
2. Effects of roof slope and wind direction on wind pressure distribution on the roof of a square plan pyramidal low-rise building using CFD simulation [J] . Jagbir Singh, Amrit Kumar Roy International Journal of Advanced Structural Engineering . 2019,第2期

机译：基于CFD仿真的屋顶坡度和风向对方形金字塔低层建筑屋顶风压分布的影响。
3. Experimental and numerical study on mean pressure distributions around an isolated gable roof building with and without openings [J] . Xing Fengda, Mohotti Damith, Chauhan Kapil Building and Environment . 2018,第MARa期

机译：带有和不带有开口的隔离式山墙屋顶建筑物周围平均压力分布的实验和数值研究
4. Computational fluid dynamics simulations and validation of the pressure distribution on the roof of a commercial multi-span Venlo-type glasshouse [J] . S. Reichrath, T. W. Davies Journal of Wind Engineering and Industrial Aerodynamics: The Journal of the International Association for Wind Engineering . 2002,第3期

机译：商用多跨Venlo型温室屋顶上的计算流体动力学模拟和压力分布验证
5. Experimental Validation of Computer Fluid Dynamics Simulation aimed on Pressure Distribution on Gable Roof of Low-rise Building [C] . Juraj Kralik, Lenka Konecna, Dagmar Lavrincikova International Conference on Structural and Physical Aspects of Construction Engineering . 2017

机译：计算机流体动力学模拟的实验验证旨在对低层建筑山墙屋盖压力分布
6. Effects of valved soffit vents on low-rise buildings with hip and gable roofs. [D] . Arch, Garth A. 2016

机译：带阀拱腹通风口对带有臀部和山墙屋顶的低层建筑的影响。
7. Wind Tunnel Tests for Wind Pressure Distribution on Gable Roof Buildings [O] . Xiao-kun Jing, Yuan-qi Li 2013

机译：在山墙屋顶建筑物上进行风压分布的风洞测试
8. Effects of roof slope and wind direction on wind pressure distribution on the roof of a square plan pyramidal low-rise building using CFD simulation [O] . Jagbir Singh, Amrit Kumar Roy 2019

机译：CFD仿真屋顶坡度与风向对平方式金字塔低层建筑屋顶风压分布的影响
9. Validation of a Computer Simulation of the Cooling and Heating Performance of a Roof Pond Building Based Upon a Detailed Analysis of Measured Heat Transfer [R] . Loxsom, F., Clark, E. E., Faultersack, J., 1985

机译：基于测量传热的详细分析验证屋顶池建筑的冷却和加热性能的计算机模拟

Experimental Validation of Computer Fluid Dynamics Simulation aimed on Pressure Distribution on Gable Roof of Low-rise Building

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