SCADA SYSTEM FOR EFFICIENCY IN DIGITALIZED PHOTOVOLTAIC PLANTS BASED ON IEC 61850
PROPOSAL AND IMPLEMENTATION
DOI:
https://doi.org/10.59627/cbens.2024.2524Keywords:
Asset Management, IEC 61850Abstract
The electrical sector is undergoing transformations, both by integrating renewable plants in the context of increased electrical energy generation and in the process of digitalization of energy systems. However, the application of digital systems in power plants lacks exploration, resulting in gaps in solutions and limitations in the operability of these plants. The monitoring of energy systems currently used is limited to voltage and current measurements and protection data, neglecting data that can be obtained, such as measurements relating to energy quality, equipment health and various parameters. In this context, the present study proposes a SCADA monitoring system applied to a PV plant based on the IEC 61850 Standard, aiming to monitor beyond measurement and protection points, but adding energy quality and efficiency, filling gaps in data collection.
Downloads
References
Abdulsalam, Abdulsalalm Bouaisha and Alsaadi, Hajir Adil Jasim and Hamodat, Zaid (2022). Control and management of solar pv grid using scada system. In 2022 International Congress on Human-Computer Interaction, Optimization and Robotic Applications (HORA), pages 1–5.
Aghenta, Lawrence O. and Iqbal, M. Tariq (2019). Development of an iot based open source scada syst em for pv system monitoring. In 2019 IEEE Canadian Conference of Electrical and Computer Engineering (CCECE), pages 1–4.
ANEEL (2017). Módulo 8 - Qualidade de Energia Elétrica. Procedimentos de Distribuição de Energia Elétrica no Sistema Elétrico Nacional – PRODIST.
Correia, Fidélis Botelho and Bronzeado, Herivelto de Souza (2001). Fator de desequilíbrio em sistemas trifásicos. IV SBQEE-Agosto de.
Elgargouri, Ahmed and Elfituri, Mohamed M and Elmusrati, Mohammed (2013). Iec 61850 and smart grids. In 2013 3rd International Conference on Electric Power and Energy Conversion Systems, pages 1 –6. IEEE. Elipse Software (2023). Elipse e3 studio.
IEC (2010). IEC 61850-7-2:2010: Communication networks and systems in substations – part 7-2: Basic communication structure for substation and feeder equipment – abstract communication service interface.Ling, Philip JA and Eldridge, Cyril J (2021). K-factor can be a misleading power quality indicator.
Madeti, Siva Ramakrishna and Singh, SN (2017). Monitoring system for photovoltaic plants: A review. Renewable and Sustainable Energy Reviews, 67:1180–1207.
Nejabatkhah, Farzam and Li, Yun Wei and Tian, Hao (2019). Power quality control of smart hybrid ac/dc microgrids: An overview. IEEE Access, 7:52295–52318.
Omicron Energy (2023a). State sequencer. Omicron Energy (2023b). Test universe.
Roger C. Dugan and Mark F. Mac Granaghan (2004). Electrical Power Systems Quality. McGraw-Hill. Rohmingtluanga, C and Datta, Subir and Sinha, Nidul and Ustun, Taha Selim (2023). Scada based intake monitoring for improving energy management plan: Case study. Energy Reports, 9:402–410.
SEL (2023). Sel-735 power quality and revenue meter - instruction manual. https://selinc.com/api/download/ 97801/.
Teixeira, Douglas Ângelo (2009). Análise das distorções harmônicas: estudo de caso de um sistema industrial.
Ustun, Taha Selim and Hussain, S. M. Suhail and Kikusato, Hiroshi (2019). Iec 61850-based communication modeling of ev charge-discharge management for maximum pv generation. IEEE Access, 7:4219–4231.
