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Conception et analyse intégrées CA et CC
Model-Driven SCADA, EMS, PMS, ADMS & SAS
Contrôleurs intelligents et système de gestion
Une plate-forme jumelle numérique unifiéeConception, fonctionnement et automatisation
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Alors que le secteur mondial de l'électricité évolue rapidement vers l'énergie durable, l'importance des études d'interconnexion des codes de réseau devient primordiale. L'analyse manuelle des codes de grille peut prendre beaucoup de temps et impliquer des scénarios complexes et une conformité stricte ;ETAP Grid Code est une solution basée sur un modèle qui comprend des outils logiciels et du matériel de contrôle pour assurer la conformité avec les codes ou les normes des réseaux locaux tout au long du cycle de vie de la conception et de l'exploitation du système électrique. En outre, le contrôleur unique de centrale électrique d'ETAP (ePPC) et son jumeau numérique garantissent une évaluation et une étude précises des performances réelles du système afin d'améliorer la conformité et de minimiser les risques.
The Red Sea Utility Grid is in the Tabuk province of Saudi Arabia. The site is a vast 33,000 km2 of islands, lagoon, coastal plain and mountains with extremely diverse marine life and terrestrial landforms. The grid is divided into four off-grid microgrids. The focus of this presentation is about three of the microgrids that are very similar in size and operation. Each of these microgrids includes two PV generation (total 6 MW), two battery storages (total 5MW, ~18 MWh), and two emergency backup diesel generators (~ total 3.8 MW). The system is designed to achieve high reliability by having redundancy at various levels.
Large power plants are designed and operated to maximize reliability. This is typically done by having multiple points of interconnection and networked configuration. In case of a failure or loss of one point of interconnection, the plant can be reconfigured by closing a coupling breaker and transferring power to another point of interconnection. However, to ensure optimal operation of the power plant, it is important to have a reliable control system that can handle such real-time changes in system configurations. Traditional PLC-based and non model-driven control systems struggle with such real-time changes of the configuration. ETAP Power Plant Controller (ePPC) is a model-driven solution that simplifies the control and management of multi-area power systems. ePPC can handle real-time changes in system configurations, enabling the controller to adjust quickly to any changes in the power network, ensuring optimal operation of the power plant. Additionally, ePPC uses a digital twin concept that allows for easy configuration and simulation of different system setups. The use of the digital twin concept means that any errors can be identified and resolved before implementation, ensuring efficient and effective setup of the power plant. Overall, ePPC offers a valuable solution for controlling multi-area renewable energy systems, providing real-time control with simple setup and reliable operation.
ETAP Automated Fault Analysis System (AFAS) solution provides Real-Time and advanced analytics of electrical faults for your complex networks. Using the ETAP digital twin combined with disturbance records, engineers and operators have a clear forensic picture of any electrical fault in the network. Using proven ETAP analysis solvers, AFAS identifies faults, including fault type, start time, protection trip time, fault magnitudes, and fault distance/impedances. A novel signal injection features allow users to playback recorded data into the protection model to compare "as designed" vs. "as found" relay response. This comparison using ETAP electrical digital twin is used to validate system response per the configured protection scheme, and the sequence of operation was followed within expected time durations.
FlickerMeter is part of the Power Quality applications in ETAP. FlickerMeter allows importing CSV-formatted data files and analyzes up to 20 signals at each run, to evaluate flicker compliance against emission limits. Flicker calculations comply with IEC 61000-4-15 which is the standard for electromagnetic compatibility (EMC) and the calculation provides instantaneous, short-term (PST), and long-term (PLT) flicker indices based on a voltage waveform loaded into the calculator.
The integration of electric vehicles (EVs), PV systems, battery energy storage systems (BESS), and more has presented us with exciting opportunities and challenges. One such challenge is the need for unbalanced network harmonic analysis, especially when dealing with single-phase charging vehicles and inverter controls.
Discover how this powerful simulation tool evaluates, verifies, and confirms the operation and selectivity of the ZSI scheme for different types of faults. The ZSI capabilities empower engineers and professionals like you to take control of electrical power system protection and analysis, enhance safety, minimize equipment damage, and validate arc flash mitigation techniques and scenarios.
Are you curious about the limitations of short-circuit standards and their inadequacy in addressing arc-flash incident energy calculations? In this presentation, we will review the challenges posed by these standards with an emphasis on IEC 60909-2016 and provide you with an explanation of ETAP arc-flash solutions to these limitations.
When it comes to running an arc flash hazard analysis study, it's crucial to identify equipment that may expose workers to high incident energy. One of the most hazardous areas is where line side arcing faults can occur. To address this challenge, Annex 0.2.3 of the 70E 2021 standard outlines various industry-accepted incident energy mitigation techniques. However, not all methods effectively tackle line side arcing faults. During the demonstration, you will acquire valuable knowledge on NFPA 70E endorsed mitigation techniques as well as details on ETAP modeling of the ArcBlok technology.
ETAP 2023 version 22.5 offers innovative solutions and features with numerous enhancements and time-saving improvements, empowering ETAP customers with technology and best practices to be safer, more reliable, efficient, compliant, and sustainable.
As more Distributed Energy Resources (DERs) are added and mixed into the grid, the need to effectively evaluate and validate the dynamic response of power systems has become essential for grid resiliency, reliability, and security. In this webinar, learn how ETAP's Transient Stability module addresses the needs and challenges of stability studies for power systems with DERs. The module provides comprehensive analysis of the system's behavior during disturbances, enabling engineers to make informed decisions for improving system stability and ensuring grid reliability.
Learn how utility engineers use ETAP’s transmission & distribution system analysis and optimization solutions to optimize capacity planning and improve reliability and safety using schematic or geospatial views. ETAP Grid™ transmission system software integrates transmission network planning with detailed substation models, network topology processing, transmission system analysis, electric SCADA and real-time transmission network energy management system. For integrated distribution network analysis, system planning and operations solution it offers a progressive geospatial platform for simulating, analyzing, operating and optimizing the performance of Utility Smart Grids.
Discover ETAP ADMS™, a combined planning and operation solution to manage, control, visualize, and optimize electrical power distribution networks comprising of: Geospatial Information System (GIS) Electrical Supervisory Control & Data Acquisition (SCADA) Distribution Management System (DMS) Distribution Network Applications (DNA) Outage Management System (OMS) Advanced Distribution Management System must offer flexible solutions to address the core requirement of the new digital grid to provide resiliency and reliability to the network while having the scalability to intelligently and proactively assess the outcome of the operations and contribute to the new requirements to minimize network cost and improve asset optimization. ETAP ADMS offers such an intelligent and robust decision support platform based on a unified Digital Twin of the electrical network with a collection of Geospatial-based distribution network applications integrated with mission-critical operational solutions to manage reliably and securely, control, visualize, and optimize small to vast distribution networks and smart grids.
In this webinar, we demonstrated how easy it is to convert to ETAP 22 from various legacy software applications using the most advanced built-in data conversation tool. We also explored many of the new features & capabilities in ETAP 22 and revealed tips and tricks for the best ETAP experience.
ETAP Train Power Simulation - eTraX™ software includes validated, user-friendly and flexible software tools for designing, analyzing and managing AC and DC railway infrastructure. Learn how eTraX integrates with ETAP protection & coordination software (StarZ) to offer insights into line protection, protective relay performance & evaluation, troubleshooting false trips, and system-wide protective device operation.
Learn about ETAP ArcSafety, an all-in-one AC & DC arc flash solution for LV, MV & HV systems that improves safety, reduces risk, minimizes equipment damage, and validates mitigation techniques.
Cette vidéo vous présentera comment facilement et rapidement réaliser vos premières analyses en 5 minutes avec le logiciel ETAP. Nous commencerons par la création d’un modèle simple composé d’une source de puissance, de charges, de câbles, d’un transformateur de puissance et d’un relais de protection. Puis nous réaliserons quelques études électriques classiques : analyse de répartition de puissance et plan de tension, calculs de courants de court-circuit, étude de sélectivité et enfin détermination de niveau de risque Arc Flash de l’installation. Pour une formation approfondie, une présentation des modules de calculs avancées, une introduction au portefeuille complet de solutions numériques ETAP depuis le dimensionnement d’une installation jusqu’à son exploitation et ou contactez-nous directement à europe@etap.com.
The ETAP electromagnetic field exposure analysis tool is integrated with the underground cable systems (UGS) analysis module, and it determines the worst-case electromagnetic fields produced by conductors in underground raceways. The tool handles various 3-phase conductor layouts including flat and trefoil as well 1/C and 3/C 1-phase cables, dc cables, etc. The tool uses balanced & unbalanced load-flow currents and angles to determine the location and surface-level height of the worst-case magnetic field because of all conductors in the raceway.