Proposal for an aggregated solar PV power plant simulation model for grid code compliance
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[1] M. Berecibar,et al. A comprehensive review of stationary energy storage devices for large scale renewable energy sources grid integration , 2022, Renewable and Sustainable Energy Reviews.
[2] N. Stern,et al. China's flexibility challenge in achieving carbon neutrality by 2060 , 2022, Renewable and Sustainable Energy Reviews.
[3] German Osma-Pinto,et al. Assessment of power quality parameters and indicators at the point of common coupling in a low voltage power grid with photovoltaic generation emulated , 2022, Electric Power Systems Research.
[4] Mrinal Ranjan,et al. A literature survey on load frequency control considering renewable energy integration in power system: Recent trends and future prospects , 2022, Journal of Energy Storage.
[5] A. Honrubia-Escribano,et al. Evaluation of the latest Spanish grid code requirements from a PV power plant perspective , 2022, Energy Reports.
[6] S. Chaudhary,et al. Grid code requirements – A case study on the assessment for integration of offshore wind power plants in Turkey , 2022, Sustainable Energy Technologies and Assessments.
[7] J. Vasquez,et al. Comprehensive Review on Renewable Energy Sources in Egypt—Current Status, Grid Codes and Future Vision , 2022, IEEE Access.
[8] Janaka Ekanayake,et al. Comparison of Reactive Power Control Techniques for Solar PV Inverters to Mitigate Voltage Rise in Low-Voltage Grids , 2021, Electronics.
[9] T. K. Vrana,et al. Future-oriented generic grid code regarding wind power plants in Europe , 2021 .
[10] B. Ogayar,et al. Survey and assessment of technical and economic features for the provision of frequency control services by household-prosumers , 2020 .
[11] Ning Zhang,et al. Modeling Frequency Dynamics in Unit Commitment With a High Share of Renewable Energy , 2020, IEEE Transactions on Power Systems.
[12] Emilio Gómez-Lázaro,et al. Requirements for Validation of Dynamic Wind Turbine Models: An International Grid Code Review , 2020 .
[13] Innocent E. Davidson,et al. Overview of Fault Ride-Through Requirements for Photovoltaic Grid Integration, Design and Grid Code Compliance , 2020, 2020 9th International Conference on Renewable Energy Research and Application (ICRERA).
[14] Dlzar Al Kez,et al. Renewables in the European power system and the impact on system rotational inertia , 2020, Energy.
[15] Allan F. Cupertino,et al. Power control strategies for grid connected converters applied to full-scale wind energy conversion systems during LVRT operation , 2020 .
[16] Teuku Meurah Indra Mahlia,et al. Grid-connected renewable energy sources: Review of the recent integration requirements and control methods , 2020 .
[17] Ronald G. Harley,et al. Examination of the effect of the reactive power control of photovoltaic systems on electric power grids and the development of a voltage-regulation method that considers feeder impedance sensitivity , 2020 .
[18] Emilio Gómez-Lázaro,et al. Field validation of a standard Type 3 wind turbine model implemented in DIgSILENT-PowerFactory following IEC 61400-27-1 guidelines , 2020 .
[19] Tao Lv,et al. Power system planning with increasing variable renewable energy: A review of optimization models , 2020 .
[20] Yuan-Kang Wu,et al. Grid-Connected Wind Power Plants: A Survey on the Integration Requirements in Modern Grid Codes , 2019, IEEE Transactions on Industry Applications.
[21] Oriol Gomis-Bellmunt,et al. Active and Reactive Power Control of a PV Generator for Grid Code Compliance , 2019, Energies.
[22] Emilio Gómez-Lázaro,et al. Submission of a WECC DFIG Wind Turbine Model to Spanish Operation Procedure 12.3 , 2019, Energies.
[23] Mohit Bajaj,et al. Grid integrated renewable DG systems: A review of power quality challenges and state‐of‐the‐art mitigation techniques , 2019, International Journal of Energy Research.
[24] Thomas A. Deetjen,et al. Evaluating rotational inertia as a component of grid reliability with high penetrations of variable renewable energy , 2019, Energy.
[25] Emilio Gómez-Lázaro,et al. Compliance of a Generic Type 3 WT Model with the Spanish Grid Code , 2019, Energies.
[26] Frede Blaabjerg,et al. Fault ride-through control of grid-connected photovoltaic power plants: A review , 2019, Solar Energy.
[27] Tarun Sharma,et al. Model based approach for planning dynamic integration of renewable energy in a transitioning electricity system , 2019, International Journal of Electrical Power & Energy Systems.
[28] M. Tarafdar Hagh,et al. A review of fault ride through of PV and wind renewable energies in grid codes , 2018, International Journal of Energy Research.
[29] M. Z. Sujod,et al. Grid‐connected photovoltaic power plants: A review of the recent integration requirements in modern grid codes , 2018 .
[30] Nipon Ketjoy,et al. Enhancing PV Penetration in LV Networks Using Reactive Power Control and On Load Tap Changer With Existing Transformers , 2018, IEEE Access.
[31] Ahmad Eid,et al. Voltage control of unbalanced three-phase networks using reactive power capability of distributed single-phase PV generators , 2017 .
[32] Yilu Liu,et al. Study of Wind and PV Frequency Control in U.S. Power Grids—EI and TI Case Studies , 2017, IEEE Power and Energy Technology Systems Journal.
[33] J. C. Hernández,et al. Enhanced utility-scale photovoltaic units with frequency support functions and dynamic grid support for transmission systems , 2017 .
[34] F. J. Ruiz-Rodriguez,et al. Stability assessment for transmission systems with large utility-scale photovoltaic units , 2016 .
[35] Emilio Gómez-Lázaro,et al. Power quality surveys of photovoltaic power plants: characterisation and analysis of grid-code requirements , 2015 .
[36] Emilio Gómez-Lázaro,et al. Influence of voltage dips on industrial equipment: Analysis and assessment , 2012 .
[37] B. Ogayar,et al. Electrical protection for the grid-interconnection of photovoltaic-distributed generation , 2012 .
[38] P. Sørensen,et al. Extensive model validation for generic IEC 61400-27-1 wind turbine models , 2022 .