光伏能源作为水电低耗时的替代能源

2023 6th International Conference on Energy, Electrical and Power Engineering (CEEPE) Pub Date : 2023-05-12 DOI:10.1109/CEEPE58418.2023.10166259

Oliver Quispe de la Cruz, Marco Cesar Paytán Valero, Sario Angel Chamorro Quijano, Cesar Quispe Lopez, Diego Ricardo Cajachagua Guerreros

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引用次数: 0

摘要

这项研究提出了一种双泵系统，即使在秘鲁高地的低用水需求时期也能利用水。这样，一个普通的水力发电厂就变成了双泵水力发电厂。拟议的系统由4个阶段组成，用于秘鲁高原地区的双泵系统耦合。第一阶段，利用马尔帕索站的历史水文气象资料对干旱期进行评价。在第二阶段，对系统的激活进行验证，验证水力发电厂的日发电量是否低于正常水平，并确认该地区存在低用水需求期。在第三阶段，太阳能电池板产生的能量在夜间被重新定向。第四阶段，激活位于下水库的液压泵，利用光伏发电的能量将水引至上水库，增加上水库的水资源。拟议的系统设计将提供一种替代方案，以保持稳定的电力生产流量，即使发电区由于降雨量少而缺水。

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Photovoltaic Energy as an Alternative in Times of Low Water Demand in Hydroelectric Power Plants

This research presents a double pumping system to harness water even during periods of low water demand in the Peruvian highlands. In this way, a regular hydroelectric power plant was transformed into a double pumped hydroelectric power plant. The proposed system consists of 4 stages for the coupling of the double pumping system in regions of the Peruvian highlands. In the first stage, the drought period was evaluated based on historical hydrometeorological data from the Malpaso station. In the second stage, the activation of the system was validated, verifying whether the daily energy produced by the hydroelectric plant is lower than usual and confirming that the region has periods of low water demand. In the third stage, the energy generated by the solar panels was redirected during the night. In the fourth stage, the hydraulic pumps located in the lower reservoir were activated to bring water to the upper reservoir thanks to the photovoltaic energy generated, increasing the water resource in the upper reservoir. The proposed system design will provide an alternative to maintain stable flows of electricity production, even if the generation area has a deficit of water resources due to low rainfall.

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2023 6th International Conference on Energy, Electrical and Power Engineering (CEEPE)

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