82 Item(s) found

Demystifying IBR Fault Response with Parametric Modeling & Analysis

Demystifying IBR Fault Response with Parametric Modeling & Analysis

The fault response characteristics of synchronous generators are inherently governed by their physical attributes and construction. In contrast, the fault response traits of Inverter-Based Resources (IBRs) are intricately tied to manufacturer-specific control schemes and settings. This intricacy adds complexity to accurately representing IBR behavior during fault conditions, particularly given the rapid advancements in inverter technology and the diverse control strategies employed by manufacturers.

ETAP 그리드 코드를™ 사용하여 규정 준수 요구 사항에 대한 그리드 상호 연결 연구를 수행하는 방법

ETAP 그리드 코드를™ 사용하여 규정 준수 요구 사항에 대한 그리드 상호 연결 연구를 수행하는 방법

전 세계 전력 부문이 지속 가능한 에너지로 빠르게 전환함에 따라 그리드 코드 상호 연결 연구의 중요성이 가장 중요해지고 있습니다. 그리드 코드의 수동 분석은 복잡한 시나리오와 엄격한 규정 준수를 포함하여 시간이 많이 소요될 수 있습니다. ETAP Grid Code는 전력 시스템 설계 및 운영 수명 주기 전반에 걸쳐 로컬 그리드 코드 또는 표준 준수를 보장하기 위한 소프트웨어 도구 및 제어 하드웨어를 포함하는 모델 기반 솔루션입니다. 또한, ETAP' 디지털 트윈과 함께 고유한 발전소 컨트롤러(ePPC)는 시스템의 실제 성능에 대한 정확한 평가 및 연구를 보장하여 규정 준수를 개선하고 위험을 최소화합니다.

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.

Utilizing ETAP Power Plant Controllers & integrated SCADA for Multi-Area Renewable Energy Systems

Utilizing ETAP Power Plant Controllers & integrated SCADA for Multi-Area Renewable Energy Systems

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. 

Track, Analyze & Reduce CO2 Emissions in Electrical Networks with  ETAP Sustainability Analysis

Track, Analyze & Reduce CO2 Emissions in Electrical Networks with ETAP Sustainability Analysis

Estimating carbon emissions, or the CO2 footprint, is a critical global concern due to its direct correlation to climate change. Governments worldwide are implementing initiatives and incentives to reduce CO2 emissions in various sectors, including generation plants, transmission and distribution grids, and industrial facilities.

Power, Efficiency, and Stability for Off-Grid Microgrid Control

Power, Efficiency, and Stability for Off-Grid Microgrid Control

Learn how the ETAP Microgrid Controller solution leverages an electrical digital twin from design to validation and automation of Off-Grid (permanently Islanded) Microgrids. In this session, active and reactive power control, optimal dispatch and secondary frequency control will be demonstrated.

Explore ETAP Power System Monitoring and Simulation (PSMS™)

Explore ETAP Power System Monitoring and Simulation (PSMS™)

 In today's dynamic power industry, staying ahead of challenges and ensuring optimal system performance is of paramount importance. ETAP PSMS addresses operations and maintenance issues, ensuring system reliability, resilience, and optimized performance. ETAP PSMS offers a comprehensive suite of lifecycle features, including SCADA, HMI, Trends, Monitored Alarms, Events, and Notifications, designed to empower your organization to monitor and operate power systems efficiently.

Learn about ETAP eSCADA - An Intelligent Alternative to Traditional SCADA

Learn about ETAP eSCADA - An Intelligent Alternative to Traditional SCADA

In recent years, more and more the electrical system generation, transmission, distribution and industrial networks are expanding, being digitized and penetrated with new technologies such as distributed generation.  Traditional SCADA solutions are no longer sufficient to support dispatchers and operators to efficiently make decisions during normal and emergency conditions.  ETAP eSCADA, based on digital twin technology, supersedes traditional SCADA’s by providing analytical solutions with operator friendly interfaces making data and recommendations available instantaneously. Yet, the system is designed to support complement standard SCADA functionality making it a complete solution.  This presentation will cover the capabilities of ETAP eSCADA for operating many different electrical networks.

How to maximizing Efficiency in Industrial Operations with ETAP AFAS

How to maximizing Efficiency in Industrial Operations with ETAP AFAS

In Industrial applications, time is money. Quickly identifying faults and restoring assets is crucial to minimize downtime and costs. The ETAP AFAS (Advanced Fault Analysis Software) leverages disturbance records and telemetry data to locate faults and provide steps to restore assets while the fault is being addressed, increasing the chances of a quick resolution.

Furthermore, ETAP AFAS seamlessly integrates several other ETAP software applications such as with the centralized relay management software (eProtect), eSCADA, and Intelligent Load Shedding (iLS) to provide a fully integrated solution for managing your industrial system. With this complete solution, engineers and operators can manage faults efficiently, minimize downtime, and maximize operational efficiency.

Learn about ETAP Automated Fault Analysis Software

Learn about ETAP Automated Fault Analysis Software

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.

Learn how the ETAP FlickerMeter Calculator improves power quality

Learn how the ETAP FlickerMeter Calculator improves power quality

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.

Unbalanced Network Harmonic Analysis: Power System Infrastructure Challenges & Active Filter Technology

Unbalanced Network Harmonic Analysis: Power System Infrastructure Challenges & Active Filter Technology

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.

How to Visualizing ZSI Scheme in ETAP: Enhancing Safety and Arc Flash Mitigation Techniques

How to Visualizing ZSI Scheme in ETAP: Enhancing Safety and Arc Flash Mitigation Techniques

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.

Understanding Arc-Flash Calculations: Overcoming Challenges of Short-Circuit Standards

Understanding Arc-Flash Calculations: Overcoming Challenges of Short-Circuit Standards

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.

How to safeguard workers and elevate Arc Flash Hazard Analysis to new heights with ArcBlok™ and ETAP

How to safeguard workers and elevate Arc Flash Hazard Analysis to new heights with ArcBlok™ and ETAP

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. 

What's New in ETAP 2023 - Introduction to New Product Modules & Enhancements

What's New in ETAP 2023 - Introduction to New Product Modules & Enhancements

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.

How ETAP Transient Stability Addresses Needs & Challenges for a Resilient, Reliable & Secure Grid

How ETAP Transient Stability Addresses Needs & Challenges for a Resilient, Reliable & Secure Grid

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.

Distribution Automation with Model-Based Volt/Var Optimization (VVO)

Distribution Automation with Model-Based Volt/Var Optimization (VVO)

This webinar discusses industry challenges and benefits of a model-based VVO, including practical applications for electric distribution systems. Gain valuable insights and benefits from ETAP customers enjoying a proactive reduction in energy waste, reduced CO2 emissions, consumption reduction, and extended equipment lifetime.

ETAP Intelligent Distribution Load Shedding - iDLS - Solution Demonstration

ETAP Intelligent Distribution Load Shedding - iDLS - Solution Demonstration

The ETAP iDLS solution leverages advanced technologies such as artificial intelligence and machine learning to provide accurate predictions of load demand and provide real-time operational insights to help grid operators make informed decisions. Additionally, iDLS integrates with existing grid infrastructure and control systems, making it easy to deploy and integrate into existing power systems. By providing a centralized load management solution, iDLS helps ensure grid stability and continuity of power supply, while minimizing the impact on connected customers and preventing blackouts and unplanned outages.

How to perform Transmission & Distribution Network Analysis with ETAP Solutions

How to perform Transmission & Distribution Network Analysis with ETAP Solutions

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.