Optimization of wind farm operation with a noise constraint

IF 3.6 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
C. Nyborg, A. Fischer, P. Réthoré, Ju Feng
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引用次数: 2

Abstract

Abstract. This article presents a method for performing noise-constrained optimization of wind farms by changing the operational modes of the individual wind turbines. The optimization is performed by use of the TopFarm optimization framework and wind farm flow modelling in PyWake as well as two sound propagation models: the ISO 9613-2 model and the parabolic equation model, WindSTAR. The two sound propagation models introduce different levels of complexity to the optimization problem, with the WindSTAR model taking a broader range of parameters, like the acoustic ground impedance, the complex terrain elevation and the flow field from the noise source to the receptor, into account. Wind farm optimization using each of the two sound propagation models is therefore performed in different atmospheric conditions and for different source/receptor setups, and compared through this study in order to evaluate the advantage of using a more complex sound propagation model. The article focuses on wind farms in flat terrain including dwellings at which the noise constraints are applied. By this, the study presents the significant gain in using a higher fidelity sound propagation model like WindSTAR over the simple ISO 9613-2 model in noise-constrained optimization of wind farms. Thus, in certain presented flow cases a power gain of up to ∼53 % is obtained by using WindSTAR to estimate the noise levels.
考虑噪声约束的风电场运行优化
摘要本文提出了一种通过改变单个风力涡轮机的运行模式来实现风电场噪声约束优化的方法。优化是通过使用TopFarm优化框架和PyWake中的风电场流模型以及两个声音传播模型:ISO 9613-2模型和抛物方程模型WindSTAR来执行的。两种声音传播模型为优化问题引入了不同程度的复杂性,其中WindSTAR模型考虑了更广泛的参数范围,如声学地面阻抗、复杂的地形高程以及从噪声源到受体的流场。因此,在不同的大气条件和不同的声源/受体设置下,使用两种声音传播模型中的每一种进行风电场优化,并通过本研究进行比较,以评估使用更复杂的声音传播模型的优势。本文的重点是平坦地形的风电场,包括住宅,其中应用了噪声限制。因此,该研究表明,在风电场噪声约束优化中,使用像WindSTAR这样的高保真度声音传播模型比简单的ISO 9613-2模型有显著的增益。因此,在某些给定的流量情况下,通过使用WindSTAR来估计噪声水平,可以获得高达53%的功率增益。
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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来源期刊
Wind Energy Science
Wind Energy Science GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
6.90
自引率
27.50%
发文量
115
审稿时长
28 weeks
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