Analysis of wind pressure coefficients on CTBUH standard high-rise buildings in CFD simulations

Wind tunnel tests are carried out for the Commonwealth Advisory Aeronautical Research Council (CAARC) high-rise building with a scale of 1:400 in exposure categories D. The distribution law of extreme pressure coefficients under different conditions is studied. Probability distribution fitting is performed on the measured area-averaged extreme pressure coefficients. The general extreme value (GEV) distribution is preferred for probability distribution fitting of extreme pressure coefficients. From the comparison between the area-averaged coefficients and the value from GB50009-2012, it is indicated that the wind load coefficients from GB50009-2012 may be non-conservative for the CAARC building. The area reduction effect on the extreme wind pressure is smaller than that on the mean wind pressure from the code. The recommended formula of the area reduction factor for the extreme pressure coefficient is proposed in this study. It is found that the mean and the coefficient of variation (COV) for the directionality factors are 0.85 and 0.04, respectively, when the orientation of the building is given. If the uniform distribution is given for the building’s orientation, the mean value of the directionality factors is 0.88, which is close to the directionality factor of 0.90 given in the Chinese specifications.

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Study of Wind Loads and Wind Speed Amplifications on High-Rise Building with Opening by Numerical Simulation and Wind Tunnel Test

Advances in Civil Engineering ◽

10.1155/2020/8850688 ◽

2020 ◽

Vol 2020 ◽

pp. 1-24

Author(s):

Fu-Bin Chen ◽

Xiao-Lu Wang ◽

Yun Zhao ◽

Yuan-Bo Li ◽

Qiu-Sheng Li ◽

...

Keyword(s):

Numerical Simulation ◽

Wind Speed ◽

Wind Tunnel ◽

Wind Pressure ◽

Wind Loads ◽

Structural Safety ◽

Pressure Coefficients ◽

High Rise ◽

High Rise Building ◽

The Mean

High-rise buildings are very sensitive to wind excitations, and wind-induced responses have always been the key factors for structural design. Facade openings have often been used as aerodynamic measures for wind-resistant design of high-rise buildings to meet the requirement of structural safety and comfort. Obvious wind speed amplifications can also be observed inside the openings. Therefore, implementing wind turbines in the openings is of great importance for the utilization of abundant wind energy resources in high-rise buildings and the development of green buildings. Based on numerical simulation and wind tunnel testing, the wind loads and wind speed amplifications on high-rise buildings with openings are investigated in detail. The three-dimensional numerical simulation for wind effects on high-rise building with openings was firstly carried out on FLUENT 15.0 platform by SST k − ε model. The mean wind pressure coefficients and the wind flow characteristics were obtained. The wind speed amplifications at the opening were analyzed, and the distribution law of wind speed in the openings is presented. Meanwhile, a series of wind tunnel tests were conducted to assess the mean and fluctuating wind pressure coefficients in high-rise building models with various opening rates. The variation of wind pressure distribution at typical measuring layers with wind direction was analyzed. Finally, the wind speed amplifications in the openings were studied and verified by the numerical simulation results.

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Distribution of the external pressure coefficients on the elliptic tower: experimental measurement compared with numerical modelling

MATEC Web of Conferences ◽

10.1051/matecconf/202031300047 ◽

2020 ◽

Vol 313 ◽

pp. 00047

Author(s):

Michal Franek ◽

Marek Macák ◽

Oľga Hubová

Keyword(s):

Cfd Simulation ◽

Flow Simulation ◽

External Pressure ◽

Wind Pressure ◽

Wind Flow ◽

Suitable Model ◽

Pressure Coefficients ◽

Building Model ◽

High Rise ◽

Experimental Values

The wind flow around the elliptical object was investigated experimentally in the BLWT wind tunnel in Bratislava and subsequently solved by computer wind flow simulation. On a high-rise building model, the external wind pressure coefficients were evaluated for different wind directions and then compared with the numerical CFD simulation in ANSYS, where different models of turbulence and mesh types were used. The aim of the article was to evaluate and compare the obtained values and after analysing the results to choose the most suitable model of turbulence and mesh types, which showed the smallest deviations from the experimental values.

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Pressure Coefficients Acting Upon the Cylinder Obtained by Numerical and Experimental Analysis

Civil and Environmental Engineering ◽

10.1515/cee-2017-0020 ◽

2017 ◽

Vol 13 (2) ◽

pp. 149-155

Author(s):

Soňa Medvecká ◽

Oľga Ivánková ◽

Marek Macák

Keyword(s):

Fluid Dynamics ◽

Boundary Layer ◽

Cross Section ◽

Cfd Simulation ◽

Circular Cross Section ◽

Wind Pressure ◽

Wind Flow ◽

Pressure Coefficients ◽

High Rise ◽

Computational Fluid Dynamics Cfd

Abstract Analysis of wind flow acting upon high-rise buildings is a very common topic. This paper deals with experiment in the Boundary Layer Wind Tunnel (BWLT) in Bratislava and comparison with the computational fluid dynamics (CFD) simulation and values given in the Eurocode. The analyzed object was the model of building with circular cross section (cylinder). External wind pressure coefficients were compared in three height levels of model.

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Proposed Wind Pressure Coefficients for Wind Resistance Design on Penetration and All Open Piloti of High-Rise Buildings

Journal of the Wind Engineering Institute of Korea ◽

10.37109/weik.2020.24.1.23 ◽

2020 ◽

Vol 24 (1) ◽

pp. 23-35

Author(s):

Hye-Jin Ryu ◽

◽

Dong-Hyeon Shin ◽

Su-Hyeon Woo ◽

Young-Cheol Ha

Keyword(s):

Wind Pressure ◽

Wind Resistance ◽

Pressure Coefficients ◽

High Rise

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The Influence of the Wind Flow Around the Free Ends of High-Rise Building on the Values of External Wind Pressure Coefficients

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.837.203 ◽

2016 ◽

Vol 837 ◽

pp. 203-208 ◽

Cited By ~ 1

Author(s):

Olga Hubova ◽

Lenka Konecna

Keyword(s):

Cross Section ◽

Wind Direction ◽

Wind Pressure ◽

Wind Flow ◽

End Effect ◽

Specific Flow ◽

Turbulent Wind ◽

Effect Factor ◽

Pressure Coefficients ◽

High Rise

The external wind pressure coefficients are based on the measurements on the structures without free-end flow near the top of vertical structures. The end-effect factor takes into account reduction of the pressures due to specific flow around the top of atypical building. The article is based on the experimental measurements in BLWT tunnel in Bratislava on the model of building with cross section of the quarter circle. The model was tested in two spaces - in steady and turbulent wind flow, by changing of wind direction and wind velocity. The end-effect factor depending on the wind direction is shown in the graphs.

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Sensitivity analysis of wind pressure coefficients on CAARC standard tall buildings in CFD simulations

Journal of Building Engineering ◽

10.1016/j.jobe.2018.01.004 ◽

2018 ◽

Vol 16 ◽

pp. 146-158 ◽

Cited By ~ 24

Author(s):

Fan-Qin Meng ◽

Bao-Jie He ◽

Jin Zhu ◽

Dong-Xue Zhao ◽

Amos Darko ◽

...

Keyword(s):

Sensitivity Analysis ◽

Tall Buildings ◽

Wind Pressure ◽

Cfd Simulations ◽

Pressure Coefficients

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Effects of Geometrical Factors on Wind Pressure Characteristics of Cylindrical Roofs with Wind Tunnel Tests

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.351-352.284 ◽

2013 ◽

Vol 351-352 ◽

pp. 284-289 ◽

Cited By ~ 2

Author(s):

Bo Chen ◽

Qing Shan Yang

Keyword(s):

Wind Tunnel ◽

Probability Distributions ◽

Wind Pressure ◽

Wind Tunnel Tests ◽

Pressure Coefficients ◽

High Rise ◽

Mean Pressure ◽

The Mean ◽

Geometrical Factors ◽

Pressure Characteristics

With wind tunnel tests, simultaneous pressure measurements are made on 4 cylindrical roof models with different rise-span ratios and roof inclinations. Effects of these geometrical factors on wind pressure characteristics of the roofs are investigated, including mean pressure coefficients, RMS pressure coefficients, skewness, kurtosis, and probability distributions of wind pressure. Results show that the mean vertical wind force coefficient of high rise-span ratio roof is larger than that of the low rise-span ration roof; the mean pressure coefficient distribution of the low rise-span ratio roof is similar to that of RMS pressure coefficients and the skewness (or the kurtosis); the vortex center line occurs at the windward edge for the low rise-span ratio roof with inclination 0°, which occurs at the roof apex for the high rise-span ratio roof. The roof inclination has more effects on the low rise-span ratio roof, the vortex moves from the windward edge to the apex for the roof with inclination 7.2°when the wind flows from the low eave to the high eave. The distribution of the skewness is strongly correlative to that of the kurtosis. The probability distributions of the roof edges and corners deviate obviously from the Guass distribution. If this point is ignored, the peak suction pressure will be underestimated.

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Interference effects between two rectangular-section high-rise buildings on local peak pressure coefficients

Journal of Fluids and Structures ◽

10.1016/j.jfluidstructs.2012.11.007 ◽

2013 ◽

Vol 37 ◽

pp. 120-133 ◽

Cited By ~ 32

Author(s):

Yi Hui ◽

Akihito Yoshida ◽

Yukio Tamura

Keyword(s):

Peak Pressure ◽

Interference Effects ◽

Rectangular Section ◽

Pressure Coefficients ◽

High Rise

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CFD Modeling of Pressure Coefficients for a Natural Ventilation Study in an Experimental Low Rise Building

Volume 6B: Energy ◽

10.1115/imece2013-66789 ◽

2013 ◽

Author(s):

Robel Kiflemariam ◽

Cheng-Xian Lin

Keyword(s):

Natural Ventilation ◽

Pressure Coefficient ◽

Wind Pressure ◽

Analytical Models ◽

Cfd Modeling ◽

Engineering Practice ◽

Pressure Coefficients ◽

Wind Pressure Coefficient ◽

Detailed Assessment ◽

Ventilation Rates

Mean wind pressure coefficient (Cp) is one of the major input data for natural ventilation study using building energy simulation approach. Due to their importance, they need to be accurately determined. In current engineering practice, tables and analytical Cp models only give mostly averaged results for simpler models and configurations. Considering the limitation of tables and analytical models, Computational Fluid Dynamics (CFD) could provide a means for an accurate and detailed assessment of Cp. In this paper, we make use of a relatively high resolution, detailed experiments done at Florida Intentional University to validate a CFD modeling of the pressure coefficients Cp. The results show that existing CFD model has a good agreement with experimental results and gives important information of distribution of Cp values over the surface. The local values of the Cp are investigated. In addition, the CFD derived Cp and discharge coefficient (Cd) values are utilized in semi-analytical ventilation models in order to get a more accurate value of ventilation rates.

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