固定翼机载风能系统多学科设计、分析与优化

Materials Research Society symposia proceedings. Materials Research Society Pub Date : 2023-11-01 DOI:10.21741/9781644902813-30

F. Trevisi

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摘要

摘要机载风能(AWE)是第二代风能系统，是一项创新技术，可以在高海拔地区获得大量未开发的风能资源潜力。与传统的风能技术相比，它能够以更低的碳强度和更低的成本收集风能。这种系统的设计仍然不确定，公司和研究机构正在关注多个概念。为了探索设计空间，正在开发一种新的多学科设计、分析和优化框架，用于固定翼机载风能系统(T-GliDe)。本文介绍了T-GliDe的框架及其问题表述。

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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Multidisciplinary design, analysis and optimization of fixed-wing airborne wind energy systems

Abstract. Airborne wind energy (AWE) is the second generation of wind energy systems, an innovative technology which accesses the large untapped wind resource potential at high altitudes. It enables to harvest wind power at lower carbon intensity and, eventually, at lower costs compared to conventional wind technologies. The design of such systems is still uncertain and companies and research institutions are focusing on multiple concepts. To explore the design space, a new multidisciplinary design, analysis and optimization framework for fixed-wing airborne wind energy systems (T-GliDe) is being developed. In this work, the framework of T-GliDe and its problem formulation are introduced.

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Materials Research Society symposia proceedings. Materials Research Society

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