Latent heat storage enables self-sustaining endurance in unmanned underwater vehicles

IF 7 2区工程技术 Q1 ENERGY & FUELS

Sustainable Energy Technologies and Assessments Pub Date : 2025-09-05 DOI:10.1016/j.seta.2025.104533

Jiadian Wang , Deming Li , Zhe Wu , Haonan Sha , Chengbin Zhang , Tieyu Gao

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Abstract

Unmanned underwater vehicles (UUVs) are critical assets for ocean exploration and marine-resource development. To address the issues of limited endurance, suboptimal manoeuvrability, and restricted payload capacity in existing UUVs, this paper proposes a method to harness ocean thermal energy through a solid–liquid phase change during the cyclical motion of a UUV from the seabed to the sea surface. A power generation system based on the organic Rankine cycle was designed for UUVs. The system transforms ocean thermal energy into electrical energy for driving UUVs. The feasibility and operational characteristics of the system were evaluated by developing a dynamic model for the power generation system. The results of this study indicate that the proposed system can effectively support the self-sustained operations of UUVs. A power generation system equipped with 210 kg of a phase change material required approximately 6000 and 1200 s for energy storage and power generation, respectively. The system achieved a peak power output of 1600 W and a total energy generation of 1920 kJ. During the power generation stage, the ratio of time required for latent heat release to that for sensible heat release was approximately 8:1, with the ratio of corresponding energy outputs being approximately 10:1.

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潜热储存使无人水下航行器能够自我维持续航能力

无人潜航器（uuv）是海洋勘探和海洋资源开发的重要资产。为了解决现有UUV的续航能力有限、机动性欠佳和有效载荷能力有限的问题，本文提出了一种在UUV从海底到海面的循环运动过程中通过固-液相变来利用海洋热能的方法。设计了一种基于有机朗肯循环的uuv发电系统。该系统将海洋热能转化为驱动uuv的电能。通过建立发电系统的动态模型，对该系统的可行性和运行特性进行了评估。研究结果表明，该系统能够有效地支持无人潜航器的自我持续运行。配备210公斤相变材料的发电系统分别需要大约6000秒和1200秒的储能和发电时间。该系统的峰值输出功率为1600w，总发电量为1920kj。在发电阶段，潜热释放时间与显热释放时间之比约为8:1，对应的能量输出比约为10:1。

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

Sustainable Energy Technologies and Assessments Energy-Renewable Energy, Sustainability and the Environment

CiteScore

12.70

自引率

12.50%

发文量

1091

期刊介绍： Encouraging a transition to a sustainable energy future is imperative for our world. Technologies that enable this shift in various sectors like transportation, heating, and power systems are of utmost importance. Sustainable Energy Technologies and Assessments welcomes papers focusing on a range of aspects and levels of technological advancements in energy generation and utilization. The aim is to reduce the negative environmental impact associated with energy production and consumption, spanning from laboratory experiments to real-world applications in the commercial sector.