抽水蓄能对实现约旦能源战略2020-2030的贡献

Yahya AlMashayikh, S. Zawaydeh, Emad Abdelsalam, M. Alkasrawi, Rashed AlBdour, T. Salameh
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摘要

约旦能源战略2020 - 2030明确指出,储能技术将成为未来监管框架的一部分,使电网灵活、智能、清洁和灵活。在过去,储能系统并不是传统电网的一部分,但随着技术的进步,它改变了游戏规则。根据约旦的《2020年能源战略》,到2030年,为了实现节能、减少二氧化碳排放和增加110吉瓦时的需求侧储能,已经制定了三种主要方案。-2030年。另一种方案是通过更换发电侧110gwh的柴油发电机来减少发电侧的能源和储能,结果是每年节省1.78亿第纳尔,发电侧节省110gwh。最后一个场景是为了实现负荷转换,从太阳高峰时段的多余能量,并在夜间需求高峰时发送。在约旦,到2030年在Mujib大坝发电311吉瓦时,该项目并不经济,但对于提供电网服务至关重要。
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Pumped Hydro Storage Contributions to Achieve Jordan Energy Strategy 2020-2030
Jordan Energy Strategy 2020 – 2030 clearly states that storage technologies will be part of the regulatory framework in the future, make the grid agile, smart, clean and flexible. The storage was not part of the traditional electricity network in the past, but it is a game changer especially with the advancement of technology. Three main scenarios have been developed to achieve energy savings, reduce CO2 emissions and increase demand-side energy storage of 110 GWh by 2030, according to Jordan's Energy Strategy 2020. -2030. Another scenario was worked out to reduce energy from the generation side and energy storage by replacing 110 GWh of diesel generators on the generation side, and the result was a saving of 178 million dinars annually and 110 GWh from the generation side. The final scenario was created to achieve load conversion from excess energy at peak sun hour and send it at night at peak demand. in Jordan by generating 311 GWh at Mujib Dam by 2030, the project is not economical but important for the purpose of providing grid services.
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