提供冷却在阿曼-一个线性优化问题,特别考虑不同的存储选项

S. Köhler, Franziska Pleißner, H. Francke, Jann Launer, Christoph Pels Leusden
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引用次数: 1

摘要

这项工作使用开源工具开放能源建模框架(oemof)分析了热能和电力太阳能冷却系统对储能的影响。考虑到各种存储配置和边界条件,例如所需的太阳能分数,系统在最低成本方面进行了优化。结果说明了不同的存储选项对系统组件的大小和太阳能比例的重要性。最佳太阳能电冷却系统的太阳能分数达到65%以上,最佳太阳能热冷却系统的太阳能分数达到87%以上,太阳能电冷却具有明显的经济优势。电能存储的投资成本高(与其他存储选项相比),并且不是成本最优解决方案的一部分。一项敏感性分析表明,即使降低50%的存储成本和提高电价,也不允许大规模电力存储的盈利使用。为了将太阳能电冷却的太阳能比例提高到65%以上,必须使用电力存储。对于这两个概念,可以通过增加各自的存储尺寸来实现高于成本的最佳太阳能分数。高达95%的太阳能比例在经济上仍然是合理的。然而,超过98%的太阳能比例会导致成本急剧增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Provision of cooling in Oman - a linear optimisation problem with special consideration of different storage options
The work analyses thermal and electrical solar cooling systems regarding the influence of energy storages using the open source tool open energy modelling framework (oemof). The systems are optimised with respect to lowest cost, considering various storage configurations and boundary conditions such as a required solar fraction. The results illustrate the importance of the different storage options on the size of the system components and the solar fraction. Optimal solar electrical cooling achieves solar fractions above 65%, optimal solar thermal cooling solar fractions above 87%, with a clear economic advantage for solar electrical cooling. Electrical energy storage suffers from high investment cost (compared to other storage options) and is not part of the cost optimal solutions. A sensitivity analysis shows, that even 50% decreased storage costs and increased electricity prices don’t allow a profitable use of large electrical storages. To increase the solar fraction of solar electrical cooling to more than 65 % it is mandatory to use electricity storage. For both concepts, higher than cost optimal solar fractions can be achieved by increasing the respective storage sizes. Solar fractions of up to 95% are still economically reasonable. However, solar fractions above 98% result in an extreme cost increase.
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