Circuit World ( IF 0.9 ) Pub Date : 2021-07-28 , DOI: 10.1108/cw-01-2021-0003 Nayana Shetty 1 , Chakrasali R.L. 2
Purpose
“the purpose of this study/paper” or “this study/paper aims to” in the Purpose section of the Abstract. The integration of distributed generation (DG) to the utility grid is yet another approach to provide reliable and secured power.
Design/methodology/approach
The significant concern in this contemporary world are the day-to-day increasing power demand, lack of energy and increasing environmental pollution, which are threatening the existence of living things.
Findings
The research focus here is to adequacy and security in the grid-integrated hybrid distributed generation (DG) having photovoltaic (PV) and proton exchange membrane fuel cell.
Originality/value
PV system is a clean source of generation and suitable for many applications. Photovoltaic cell captures the energy from solar irradiation. To track the maximum power from PV, perturb and observe method is used. As it is intermittent in nature, integrating PV with fuel cell makes the hybrid source more reliable. Power electronic interfacing devices are used to integrate this hybrid DG source to microgrid. The simulation of this grid-connected hybrid DG is performed using Matlab/Simulink environment.
中文翻译:
具有 PV 和 PEMFC 的混合 DG 的并网运行和性能
目的
摘要的目的部分中的“本研究/论文的目的”或“本研究/论文旨在”。将分布式发电 (DG) 集成到公用电网是提供可靠和安全电力的另一种方法。
设计/方法/方法
当今世界的重大关切是日益增长的电力需求、能源缺乏和日益严重的环境污染,这些都威胁着生物的生存。
发现
这里的研究重点是具有光伏 (PV) 和质子交换膜燃料电池的并网混合分布式发电 (DG) 的充分性和安全性。
原创性/价值
光伏系统是一种清洁的发电来源,适用于许多应用。光伏电池从太阳辐射中获取能量。为了跟踪来自 PV 的最大功率,使用扰动和观察方法。由于它本质上是间歇性的,将光伏与燃料电池集成使混合电源更加可靠。电力电子接口设备用于将这种混合 DG 电源集成到微电网中。使用 Matlab/Simulink 环境执行此并网混合 DG 的仿真。