卢旺达偏远地区电气化混合光伏/水电系统可行性研究

Emile Niringiyimana, Sun WanQuan, Giovanni Dushimimana
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引用次数: 3

摘要

卢旺达是全球最不发达国家之一,其总用电率不超过63%,其余人口生活在无电地区。其中一个地方,也是本研究的重点,是Musanze区(1.4919 S、 29.5572 E) ,该地区60%的人口位于偏远地区,这使得通过电网系统实现电气化的任务非常困难。到目前为止,已经开发了微型水电,以减少该地区的能源供应不足。然而,发电量不足以覆盖该地区,主要问题是旱季河流水位下降,影响了发电量。在这项工作中,研究并优化了光伏/水力发电混合供电系统的可行性,以增加该地区获得电力的家庭数量。A 200 运行中的Musanze区的kW Mutobo微型水电系统被视为一个案例研究,其中100 设计了与微水电系统相连的kW光伏阵列。采用改进的P和O MPPT算法,提出了优化的光伏水电混合系统,以提高光伏发电量。该模型使用MATLAB/Simulink进行设计和模拟,并使用Mutobo微型水电站、卢旺达能源集团和国家气象局记录的数据来估计太阳能潜力。结果表明,光伏/水电混合系统是可行的,有效地缓解了旱季偏远地区的电力短缺。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Feasibility Study of a Hybrid PV/Hydro System for Remote Area Electrification in Rwanda
Rwanda is among the least developed countries on the globe with total access to electricity not exceeding 63%, where the rest of the population lives in areas with no access to electricity. One such a place, which is the focus of this research, is Musanze district (1.4919 S, 29.5572 E), where 60% of the population in this area are located in remote areas, which makes the task of their electrification via grid system very difficult. Micro hydropower has been developed so far to reduce the deficit of energy access in this area. However, the power generated is not enough to cover the area, and the major problem is the decrease in river water level in the dry season, which affects the power generation. In this work, the feasibility of a hybrid PV/hydroelectric supply system is studied and optimized to increase the number of homes accessing electricity in this area. A 200 kW Mutobo micro hydro system in Musanze district under operation is considered a case study where a 100 kW PV array tied to the micro hydropower system is designed. The optimized PV-hydro hybrid system was proposed using a modified P and O MPPT algorithm to enhance the PV-generated power. The model was designed and simulated using MATLAB/Simulink, and data recorded from Mutobo micro hydropower station, Rwanda Energy Group, and National Meteorological Agency were used to estimate solar energy potentials. The results showed that the hybrid PV/hydro system is feasible and effectively contributes to the power shortage mitigation in remote areas during the dry season.
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