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[IEEE 2018 International Conference on Recent Innovations in Electrical, Electronics & Communication Engineering (ICRIEECE) - Bhubaneswar, India (2018.7.27-2018.7.28)] 2018 International Conference on Recent Innovations in Electrical, Electronics & Communication Engineering (ICRIEECE) - Performance Analysis of Directly Coupled Solar Photovoltaic Powered Irrigation Pumps
摘要: Cascading outages can have a catastrophic impact on power systems. One such recent incident was the September 8, 2011 blackout that affected San Diego and large parts of the southwestern United States. To prepare for such events, the NERC transmission planning standards require utilities to plan for n-1-1 outages. However, such analyses can be computationally burdensome for any realistic power system owing to the staggering number of possible n-1-1 contingencies. This paper proposes a systematic approach to analyze n-1-1 contingencies in a computationally tractable manner for power system security assessment. The proposed approach addresses both static and dynamic security assessment. The proposed methods have been tested on the Western Electricity Coordinating Council (WECC) system. The test results show that a substantial reduction in computational effort is achieved by implementing these methods for an n-1-1 contingency analysis. In addition, the reliability of the proposed methods is evaluated by an exhaustive contingency analysis.
关键词: contingency ranking,n-1-1 contingency,contingency screening,multiple outages,static security assessment,dynamic security assessment,Contingency classification,power system stability
更新于2025-09-23 15:19:57
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[IEEE 2019 International Conference on Information and Communications Technology (ICOIACT) - Yogyakarta, Indonesia (2019.7.24-2019.7.25)] 2019 International Conference on Information and Communications Technology (ICOIACT) - The Effect of Irradiance on Distribution Power System Stability in Large-Scale Grid-Connected Photovoltaic
摘要: The purpose of this study was to analyze the effect of solar irradiance in the integration of photovoltaic plants (PV) on the stability of the electric power distribution system. The stability aspects assessed were the stability of the distribution network and the stability response of the synchronous generator which work in parallel with the PV generator. Distribution grid stability includes voltage and frequency stability. The stability response of synchronous generators includes power angle stability, active power stability, and reactive power stability. All aspects of stability were simulated based on four different cases of irradiance, namely 550 W/m2, 650 W/m2, 850 W/m2, and 1000 W/m2. PV generators were connected to a distribution grid using an inverter with MPPT and PV systems without batteries. This study was applied to a case of electrical distribution system in Gorontalo province, Indonesia. One distribution feeder in Gorontalo Province was connected a photovoltaic system of 2000 kWp and synchronous generators that work in parallel. The distribution system was modelled in a single-line diagram of 13-buses. The measurement of every solar radiation intensity change was conducted in every electrical distribution power system change. This study showed that high irradiation in PV plants affects the voltage and frequency stability on the grid by increasing proportionately. However, the high irradiation has an effect on increasing power oscillation at synchronous generators.
关键词: Distribution System,Synchronous Generator,Photovoltaic,Power System Stability,Grid-Connected
更新于2025-09-16 10:30:52
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[IEEE 2019 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia) - Chengdu, China (2019.5.21-2019.5.24)] 2019 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia) - Optimal Allocation of Photovoltaic in the Hybrid Power System using Knapsack Dynamic Programming
摘要: Indonesia, which is represented by PLN as stated-owned electric utility company, commits to increase the share of renewable energy mix up to 23% in 2025. One way to reach this goal is the commitment to solar power generation. However, generation from photovoltaic has intermittency that dependent on sun irradiation, so the stability of power system might be affected in certain cases. The stability problem can be anticipated by using a hybrid power system with the composition of photovoltaic, battery, and diesel. Optimal power flow and N-1 contingency simulation is conducted to determine and compare locations and the capacity of hybrid power system. Furthermore the composition of hybrid power system is evaluated by an frequency stability simulation and the LCOE is calculated. The appropriate hybrid power system is selected by applying a knapsack dynamic programming approach. The result of the calculation is the optimal location of the hybrid power system with photovoltaic capacity as planned. This method is applied to Sumbawa power system as a case study.
关键词: power system stability,smart grids,cost,dynamic programming,hybrid power system
更新于2025-09-12 10:27:22