Nonlinear ocean energy harvesting method for unmanned surface vessels

IF 9 1区工程技术 Q1 ENERGY & FUELS

Renewable Energy Pub Date : 2025-05-07 DOI:10.1016/j.renene.2025.123383

Yuhang Huang , Haicheng Zhang , Jiarui Liu , Pengcheng Li , Jun Ding , Daolin Xu

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引用次数: 0

Abstract

Long endurance unmanned surface vessels (USVs) play a critical role in ocean monitoring, but traditional energy supply for their monitoring sensors has great problems. Harvesting wave-induced ship vibration energy is a promising solution to meet the long-term energy demands of USVs. However, traditional linear energy harvesters (L-EHs) exhibit poor performance in capturing wave-induced low-frequency vibrations. To address this issue, a bistable mechanism is introduced, and a bistable spring-mass-based EH (B-EH) is studied as an embodiment. A wave-to-wire dynamic model of the B-EH in the USV is established, and a semi-analytic solution method based on the least square method and the harmonic balance method is proposed for the fast solution of the nonlinear electromechanical coupling equations. Furthermore, the static characteristics of the B-EH and the influence of the main parameters on the average power of the B-EH are studied. The results show that the B-EH with proper parameter design has a wider bandwidth at low frequencies compared to the L-EH, making it more suitable for the long-term energy supply of the USV during operation. The bistable mechanism holds great potential to be widely used in inertial type EHs for USVs.

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无人水面舰艇非线性海洋能量收集方法

长航时无人水面舰艇（usv）在海洋监测中发挥着至关重要的作用，但其监测传感器的传统能源供应存在很大问题。收集波浪引起的船舶振动能量是一种很有前途的解决方案，可以满足无人潜航器的长期能源需求。然而，传统的线性能量收集器（L-EHs）在捕获波浪引起的低频振动方面表现不佳。为了解决这一问题，引入了一种双稳态机构，并研究了一种基于双稳态弹簧质量的EH （B-EH）作为实施例。建立了USV中B-EH的波线动力学模型，提出了一种基于最小二乘法和谐波平衡法的非线性机电耦合方程的半解析求解方法。此外，还研究了B-EH的静态特性以及主要参数对B-EH平均功率的影响。结果表明，与L-EH相比，参数设计合理的B-EH具有更宽的低频带宽，更适合USV运行期间的长期能量供应。该双稳机构在usv惯性型EHs中具有广阔的应用前景。

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

Renewable Energy 工程技术-能源与燃料

CiteScore

18.40

自引率

9.20%

发文量

1955

审稿时长

6.6 months

期刊介绍： Renewable Energy journal is dedicated to advancing knowledge and disseminating insights on various topics and technologies within renewable energy systems and components. Our mission is to support researchers, engineers, economists, manufacturers, NGOs, associations, and societies in staying updated on new developments in their respective fields and applying alternative energy solutions to current practices. As an international, multidisciplinary journal in renewable energy engineering and research, we strive to be a premier peer-reviewed platform and a trusted source of original research and reviews in the field of renewable energy. Join us in our endeavor to drive innovation and progress in sustainable energy solutions.