Mean wind loads on equilateral triangular lattice tower under skewed wind loading

This paper present some selected results of wind tunnel tests carried out on a typical super-tall building The variations of wind loads in the three orthogonal directions with wind attack direction were evaluated. The cross-correlations among various wind loading components were presented and discussed in detail. Furthermore, the across-wind spectral characteristics were studied and an empirical formula for estimation of the across-wind overturning moment spectrum for the super-tall building is presented. The output of this study is expected to be of considerable interest and practical use to professionals and researchers involved in the design of super-tall buildings.

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Consideration of Wind Loads in Fitness for Service Assessment of Storage Tanks

Volume 3: Design and Analysis ◽

10.1115/pvp2020-21216 ◽

2020 ◽

Author(s):

Gys van Zyl ◽

Stewart Long

Keyword(s):

Wind Pressure ◽

Wind Loads ◽

Wind Loading ◽

Storage Tanks ◽

Actual Distribution ◽

Wind Actions ◽

Level 3 ◽

Tank Design ◽

Cylindrical Tanks ◽

Direct Guidance

Abstract Wind actions are important to consider when performing fitness for service assessment on storage tanks with damage. Tank design codes typically have rules where a design wind velocity is used to determine required dimensions and spacing of wind girders, and a uniform wind pressure is used to evaluate tank anchorage for uplift and overturning due to wind actions. These rules are of little use in a fitness for service assessment of localized damage, as the actual distribution of wind pressure on the wall and roof of a cylindrical tank is far from constant, and a better evaluation of the wind pressure distribution is desired when performing a level 3 fitness for service assessment. API 579/ASME FFS-1 provides no direct guidance relating to the application of wind loading but refers to the American Society of Civil Engineers Standard ASCE/SEI 7. Other international codes relating to wind loads, such as Eurocode EN-1991-1-4 and Australia/New Zealand Standard AS/NZS 1170.2 also contain guidance for the evaluation of wind actions on cylindrical tanks. This paper will present a review of these international codes by comparing their guidance for wind actions on cylindrical tanks, with specific emphasis on how this may affect a level 3 fitness for service assessment of a damaged storage tank.

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Comparison of the Canadian standard and other standards for wind loading on self-supporting telecommunication towers

Canadian Journal of Civil Engineering ◽

10.1139/cjce-2020-0210 ◽

2020 ◽

Author(s):

Patricia Martín ◽

Ashraf A. El Damatty

Keyword(s):

Civil Engineering ◽

International Standards ◽

Wind Loads ◽

Wind Loading ◽

Effect Factor ◽

Engineering Community ◽

Axial Forces ◽

Australian Standard ◽

Telecommunication Towers ◽

Wind Profiles

Designing telecommunication towers to withstand wind loads requires specific considerations, which has led the international civil engineering community to develop specific standards for these structures. The recent internationalization of the construction business has made it imperative for engineers to acquire knowledge and interpretation of codes from different countries. In light of the 2018 update of Canadian Standard CSA-S37-18 (CSA), evaluating its differences against other international standards for telecommunication towers has become important. This paper presents a comparison of the wind loading specifications for self-supporting telecommunication towers according to CSA; Australian Standard; Eurocode EN-1993-1; and US Standard TIA-222-G. The different standards have also been evaluated with respect to the values of the axial forces and the elements ratio for two self-supporting telecommunication towers. The parameters related to the wind profiles and the gust effect factor presented the highest difference between the standards.

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Structural Analysis of Ground Mounted Solar Panel Array

Volume 6A: Energy ◽

10.1115/imece2018-88526 ◽

2018 ◽

Author(s):

Md Ashhar Tufail ◽

Barun Pratiher

Keyword(s):

Structural Analysis ◽

Energy Production ◽

Cfd Simulation ◽

Wind Pressure ◽

Wind Loads ◽

Wind Loading ◽

Row Spacing ◽

Solar Panels ◽

Cfd Simulations ◽

Drag And Lift

In the current study, CFD simulations and static structural analysis were carried out to estimate the wind loads for up and downstream wind directions on ground mounted arrayed solar panels. The goal of simulations is to estimate the loads (i.e. drag and lift forces and also moment coefficients) and wind pressure that act upon their surface. Static structural analysis coupled with CFD simulation is done to determine the total deformation due to wind loads on each panel. The motive of the study is to protect the integrity of the solar panels in a situation like cyclone and typhoon so that energy production is not hindered throughout their service life. Simulations were carried out on arrayed nine panels with changing various parameters (i.e. clearance height, inter row spacing between panels and panel inclination) that effect wind loading on the panels.

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WIND PRESSURE DISTRIBUTION ON LOW-RISE BUILDINGS WITH CYLINDRICAL ROOFS

Proceedings of International Structural Engineering and Construction ◽

10.14455/isec.res.2015.193 ◽

2015 ◽

Vol 2 (1) ◽

Author(s):

Astha Verma ◽

Ashok Kumar Ahuja

Keyword(s):

Boundary Layer ◽

Experimental Study ◽

Wind Tunnel ◽

Pressure Distribution ◽

Open Circuit ◽

Wind Pressure ◽

Wind Loads ◽

Wind Loading ◽

Pressure Coefficients ◽

Available Information

Wind is one of the important loads to be considered while designing the roofs of low-rise buildings. The structural designers refer to relevant code of practices of various countries dealing with wind loads while designing building roofs. However, available information regarding wind pressure coefficients on cylindrical roofs is limited to single span only. Information about wind pressure coefficients on multi-span cylindrical roofs is not available in standards on wind loads. Present paper describes the details of the experimental study carried out on the models of low-rise buildings with multi-span cylindrical roofs in an open circuit boundary layer wind tunnel. Wind pressure values are measured at many pressure points made on roof surface of the rigid models under varying wind incidence angles. Two cases namely, single-span and two-span are considered. The experimental results are presented in the form of contours of mean wind pressure coefficients. Results presented in the paper are of great use for the structural designers while designing buildings with cylindrical roofs. These values can also be used by the experts responsible for revising wind loading codes from time to time.

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Wind resistance of a narrow partially built house

Canadian Journal of Civil Engineering ◽

10.1139/l86-050 ◽

1986 ◽

Vol 13 (3) ◽

pp. 375-381

Author(s):

Ronald A. Macnaughton

Keyword(s):

Key Words ◽

Wind Load ◽

Building Code ◽

Wind Loads ◽

Wind Loading ◽

Critical Component ◽

Wind Resistance ◽

Early Stages ◽

Resistance Analysis

This paper contains a wind load and resistance analysis for a type of structure that has frequently failed: partially built houses. The critical component of such structures is identified to be the first-storey shearwalls running across the house. The calculated racking strength of that storey is compared to the wind loading the structure would be expected to resist if it were engineered. Various methods are proposed for builders to provide these structures with more wind resistance during the early stages of construction. Differences between Canadian codes and codes in other jurisdictions with respect to this are pointed out. Key words: wind loads, houses, failure, wind bracing, temporary bracing, shearwalls, fibreboard, sheathing, permanent bracing, racking strength, construction procedures, nailing, building code.

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Wind loading on intermediate height buildings

Canadian Journal of Civil Engineering ◽

10.1139/l92-015 ◽

1992 ◽

Vol 19 (1) ◽

pp. 148-163 ◽

Cited By ~ 3

Author(s):

R. A. Sanni ◽

D. Surry ◽

A. G. Davenport

Keyword(s):

Research Work ◽

Dynamic Responses ◽

Wind Engineering ◽

Wind Loads ◽

Wind Loading ◽

Interference Effects ◽

Data Set ◽

Minimum Width ◽

Gust Factor ◽

Detailed Method

The current gust factor approach in the detailed method of the National Building Code of Canada (NBCC) for the estimation of wind loads on buildings was developed from research work that was largely directed towards very tall and flexible buildings for which resonant responses are very significant; however, the dynamic responses of the majority of intermediate height buildings are dominated by quasi-steady gust loading with little resonant response. This study has been carried out to assess the applicability of the detailed approach of the NBCC to that class of fairly common intermediate height buildings, of which apartment buildings are good examples. For the purposes of this study, these buildings have been defined as buildings whose heights are between 20 and 120 m and whose ratio of height to minimum width is not more than 4. The responses estimated from the detailed approach of the NBCC have been compared with those from wind tunnel tests with a view to verifying and simplifying its application to such intermediate height buildings.Since intermediate height buildings are often arranged in groups, an experimental study of the interference effects between adjacent buildings was also undertaken to assess the effect of an upwind building on the wind-induced overall moments on a downwind building of a similar height. The influence of this interference effect on the member stresses or forces was investigated using the concept of joint action factors.General agreement between the test and the code-estimated responses was obtained in the comparisons. The small resonant responses observed provided a basis for deriving a simplified method for estimating the gust factor in the detailed method without the requirement of knowing the structure's dynamic properties.Significant interference effects were found, particularly for the across-wind and torsional moments on buildings in an open exposure; however, the amplification of the overall wind-induced moments does not necessarily translate into a similar amplification of member forces or stresses. For the buildings studied, the results have shown that for the majority of practical situations, interference effects are not likely to result in amplification of member stresses or forces. A set of additional factors of safety have been proposed, based on the limited experimental data set, to cover load amplification by interference effects for those members that are very sensitive to overall wind-induced torsional moments. Key words: codes, wind loads, wind engineering, intermediate height buildings, interference effects.

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Analysis of Non-Gaussian Surge Response of Tension Leg Platforms Under Wind Loads

Journal of Offshore Mechanics and Arctic Engineering ◽

10.1115/1.2920142 ◽

1994 ◽

Vol 116 (3) ◽

pp. 137-144 ◽

Cited By ~ 64

Author(s):

A. Kareem ◽

J. Zhao

Keyword(s):

Volterra Series ◽

Response Probability ◽

Extreme Value Distribution ◽

Value Distribution ◽

Wind Loads ◽

Wind Loading ◽

Integration Scheme ◽

Wind Gust ◽

Offshore Structure ◽

Non Gaussian

The nonlinearity in the wind loading expression for a complaint offshore structure, e.g., a tension leg platform (TLP), results in response statistics that deviate from the Gaussian distribution. This paper focuses on the statistical analysis of the response of these structures to random wind loads. The analysis presented here involves a nonlinear system with memory. As an improvement over the commonly used linearization approach, an equivalent statistical quadratization method is presented. The higher-order response cumulants are based on Volterra series. A direct integration scheme and Kac-Siegert technique is utilized to evaluate the response cumulants. Based on the first four cumulants, the response probability density function, crossing rates, and peak value distribution are derived. The results provide a good comparison with simulation. A nonlinear wind gust loading factor based on the derived extreme value distribution of nonlinear wind effects is formulated.

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