The Impact of High-Rise Building Shapes on Wind Flow Characteristics and Energy Potential

Indian Journal of Structure Engineering Pub Date : 2024-03-30 DOI:10.54105/ijse.a1319.03021123

Ehsan Mokhtari, Amir Hossein Jafari, Roslina Sharif, Wan Srihani wan Mohamed

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Abstract

In recent years, wind energy has become a potential source of low carbon energy. The shape of a building is a significant factor in aerodynamics, providing an opportunity for wind power control and wind energy proliferation. This research project aims to study the design of high-rise buildings and investigate how wind affects energy absorption by developing an aerodynamic optimization procedure (AOP) and using Computational Fluid Dynamics (CFD) in COMSOL Multiphysics. This study aimed to optimize the building shape for wind energy exploitation. Optimizing the building shape in the early stages of design enables the control of wind-induced loads and responses and reduces the energy demand in high-rise buildings, where resource consumption is higher than that in low-height buildings. This study used a three-dimensional CFD simulation of wind loading on tall buildings to optimize the building shape. This research will provide valuable insights for architects, engineers, and building developers to design and optimize high-rise buildings for wind energy exploitation, reduce the carbon footprint, and improve the energy efficiency of buildings.

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高层建筑形状对风流特性和能源潜力的影响

近年来，风能已成为一种潜在的低碳能源。建筑物的形状是空气动力学的一个重要因素，为风能控制和风能扩散提供了机会。本研究项目旨在研究高层建筑的设计，并通过开发空气动力学优化程序（AOP）和使用 COMSOL Multiphysics 中的计算流体动力学（CFD）研究风如何影响能量吸收。这项研究旨在优化建筑外形，以利于风能开发利用。在设计初期优化建筑外形可以控制风引起的负荷和响应，并减少高层建筑的能源需求，因为高层建筑的资源消耗高于低层建筑。本研究使用三维 CFD 模拟高层建筑的风荷载，以优化建筑外形。这项研究将为建筑师、工程师和建筑开发商设计和优化高层建筑的风能利用、减少碳足迹和提高建筑能效提供有价值的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Indian Journal of Structure Engineering

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