Performance Simulation of Solar-Ocean Thermal Energy Conversion

Volume 10: Ocean Renewable Energy Pub Date : 2018-06-17 DOI:10.1115/OMAE2018-78551

Yue Juan, Li Dashu, Li Zhichuan, Xiao Gang, Zhang Li, Wu Yonghu, Yu Ting

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Abstract

Compared to the restriction of intermittency of solar power generation, ocean thermal energy conversion (OTEC) is not only 24/7 base-load, but also comprehensive utilization of fresh water production, air-conditioning, mariculture etc. However, limited temperature difference between warm surface seawater and the cold deep seawater is a crucial factor that restricts the thermal efficiency of OTEC. But today, with the appliance of solar collector in OTEC net power output and the net thermal efficiency have been significantly improved. In this study theoretical analysis and performance simulation of 1MW solar-ocean thermal energy conversion (SOTEC) in South China Sea area is conducted. Net power output and net thermal efficiency of SOTEC with solar-boosted temperature of 20K and OTEC under the condition of weather conditions in South China Sea are compared and analyzed. The results show that the net power output and net thermal efficiency of SOTEC have been significantly improved by combining the solar collector. This study is practical for autonomous supply of islands and coastal areas, and instructive for the comprehensive utilization of renewable energy.

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太阳-海洋热能转换性能仿真

与太阳能发电的间歇性限制相比，海洋热能转换(OTEC)不仅是24/7的基本负荷，而且是淡水生产、空调、海水养殖等的综合利用。然而，表层温暖海水与深层寒冷海水之间有限的温差是制约OTEC热效率的关键因素。而如今，随着太阳能集热器在OTEC中的应用，净输出功率和净热效率都有了明显的提高。本文对南海1MW太阳能-海洋热能转换(SOTEC)系统进行了理论分析和性能仿真。对比分析了南海天气条件下太阳助推温度为20K的SOTEC和OTEC的净输出功率和净热效率。结果表明，与太阳能集热器组合后，SOTEC的净输出功率和净热效率得到了显著提高。本研究对海岛和沿海地区的自主供电具有现实意义，对可再生能源的综合利用具有指导意义。

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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Volume 10: Ocean Renewable Energy

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