海上可再生能源存储:带有浮力引擎的CAES

Daniel Chidiebere Onwuchekwa
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引用次数: 2

摘要

该项目主要侧重于一种创新技术的数值分析,该技术可以显著提高水下压缩空气储能(CAES)系统的能量收集。水下CAES系统以恒定压力将压缩空气储存在锚定在水体底部的能量袋中(1)。该项目提出了浮力引擎,这是一种可再生能源概念,可以产生短期电力,足以产生压缩空气膨胀所需的额外热能。短期电能被收集并用于产生电弧,用于将带电的熔盐加热到500°C以上(2),以获得更有效、可控和延长的发电周期。已知熔盐储能系统仅从储存的能量就能产生15小时的电力(3)。这项工作显示了作用于上升能量袋的净浮力的数值研究结果,以及将其转化为空气膨胀阶段有用能量的技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Offshore Renewable Energy Storage: CAES with a Buoyancy Engine
This project is primarily focused on numerical analysis of an innovative technique that significantly improves the harvesting of energy from underwater compressed air energy storage (CAES) systems. The underwater CAES system stores compressed air at constant pressure in Energy Bags anchored at the bottom of the water body (1). This project presents the Buoyancy Engine, a renewable energy concept which generates short term electrical power sufficient to produce additional heat energy required for the expansion of the compressed air. The short term electrical energy is harvested and utilised to generate an electrical arc which is used to heat up charged molten salt to over 500°C (2), for a more efficient, controlled and extended electricity generation period. Molten salt energy storage systems have been known to produce electricity for 15 hours from only stored energy (3). This work shows the results of numerical investigations of the net buoyancy acting on ascending energy bags and the techniques for converting it to useful energy for the air expansion stage.
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