单机水电站的一种新技术

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Saqib Ali, A. Muneer
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引用次数: 0

摘要

独立水电站是电网隔离区的主要能源,因为它们不需要建造水坝。在独立水电站中,电压和频率的不稳定是由负载变化引起的。这可能导致交流发电机旋转非常快或非常慢,从而导致感应电压和输出频率上升或下降。此外,如果交流发电机的增长率过高或过低,连接到发电机的负载设备可能会受到巨大损坏。为了实现小型水电站的最佳整体性能,发电电压和频率必须在要求的范围内。为了克服这些问题,本文讨论了一个系统。所提出的系统不仅通过电子负载控制系统稳定独立水电站的输出,而且简单且价格有效。电子负载控制器管理的小型水力发电考虑了重要参数,即在消费者负载可变的情况下电压和频率的稳定。所提出的技术包括PID和模糊逻辑控制系统,以及一对与H桥互连的直流电机,以控制称为闸门的水阀。所提出的控制系统还包括几个虚拟负载,以释放额外的发电功率,从而保持输出功率恒定并克服频率变化。为了提高发电机的效率和寿命,所使用的虚拟负载仅在正弦信号的过零点处切换。该系统在Simulink/MATLAB和Proteus上实现。仿真结果证明,该技术克服了单机水电站的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel technique for stand-alone hydropower plant
Stand-alone hydropower plant is a major energy source in grid isolated zone because they do not require dams to be built. In a stand-alone hydropower plant Voltage and frequency, instability is caused by the load variation. This can cause the alternator to spin very quickly or very slowly, causing the induced voltage and output frequency to rise or fall. Furthermore, if the rate of alternator growth is too high or too low, the load appliances connected to the generator can undergo huge damage. For optimal overall performance of a small hydropower plant, generated voltage and frequency must be within the required range. To overcome these issues, a system is discussed in this paper. The proposed system not only stabilizes stand-alone hydropower plant output through an electronic load control system but is also easy and price-effective. Electronic load controller managed small hydro energy generation that takes into vital parameters, i.e, stabilization of both voltage and frequency despite variable consumer load. The presented technique consists of PID and fuzzy logic control system and also a couple of DC motors interconnected with an H-bridge to control the water valve known as a gate. The proposed control system also consists of several dummy loads to dump the extra generated power to keep the output power constant and to overcome frequency variations. For increased efficiency and life span of the generator, dummy loads used are switched only at zero crossings of a sinusoidal signal. The proposed system is implemented on both Simulink/MATLAB and Proteus. The simulation results prove that the presented technique overcomes the challenges of stand-alone hydropower plants.
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