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Learn how demand response (DR) can foster innovation and collaboration in the power sector by creating new opportunities, challenges, solutions, and more.
Learn about the main components and assumptions of a power flow model, a mathematical representation of a power system that calculates voltage, current, and power.
Learn the principles and steps of power system design for renewable energy, smart grid, microgrid, and distributed generation scenarios.
Learn how AI can improve load forecasting accuracy and reliability for power system management and optimization.
Learn how to protect power system data and AI models from cyber threats and privacy risks. Discover tips and best practices to ensure their quality, robustness, and…
Learn how to use phasor measurement units (PMUs) for various applications and benefits in power system dynamics and transient analysis.
Learn how to evaluate and optimize PSS and SVC, devices that can improve power system stability by damping oscillations.
Learn how to apply the equal area criterion to find the critical clearing angle and time of a fault in a power system with a two-machine model.
Learn about the current trends and challenges in high voltage power systems and safety standards, and how to ensure safe and reliable operation.
Learn about six common pitfalls and errors in power system modeling, and how to improve your skills and results with best practices and tips.
Learn how to conduct power system stability studies and tests using standard methods and procedures. Discover the types, analysis, and tests of stability.
Learn about microgrids and islanding, how they can enhance or compromise power system reliability, and how to design and operate them properly.
Explore some of the current topics and issues that power generation research and development is focusing on, such as renewables, microgrids, CCU, fusion, and AI.
Learn how phasor measurement units (PMUs) can provide accurate and synchronized data for power system analysis, monitoring, and control, and what are the main…
Learn what validation and verification mean, why they are important, and how to perform them for power system models and simulations.
Learn how to create and maintain Power Systems documentation and reports using best practices and tools for planning, writing, reviewing, and distributing them.
Learn how to check, compare, correct, update, validate, and use load flow data for your power system. Improve your power system performance and efficiency.
Learn how to apply the IEEE 1547 standard for interconnecting distributed energy resources (DERs) to the electric power system. Discover the technical requirements…
Discover the main environmental and social impacts of power system operation and development. Find out how to balance the costs and benefits of electricity.
Learn how to apply best practices and tools for managing and assuring the quality of smart grid applications, such as scope definition, risk management, quality…
Learn about the tasks, skills, and challenges of power system engineers and operators who ensure the reliable and secure delivery of electricity.
Learn how to keep your power system software and tools updated and secure with five simple steps: update, antivirus, encrypt, access, and train.
Learn six skills and competencies that you need to master power system software and tools for designing, analyzing, operating, and maintaining electrical grids.
Learn how to design and implement excitation control systems for synchronous machines in power systems, using basic principles, models, and methods.
Learn about the main challenges and risks of power system commissioning in different environments and scenarios and how to overcome them.
Learn how FACTS controllers can enhance your power system operation and control by regulating voltage and reactive power at different locations and time scales.
Learn about offline and online fault location methods for high voltage cables, their advantages and disadvantages, and how to select the best one.
Learn about modal analysis, a technique to assess voltage stability in power systems. Find out its advantages, disadvantages, and comparison with other methods.
Learn about the best methods to measure and improve the damping performance of your power system, such as modal analysis, Prony analysis, PSS, FACTS, and WAMS.
Learn how to identify, test, fix, and prevent surge protection issues in your power system with six steps. Protect your equipment and users from surges.
Learn about the benefits, challenges, solutions, and future trends of demand response, a strategy that allows customers to adjust their electricity consumption.
Learn how to apply the concept of stability margin to improve the security, reliability, and efficiency of your power system operation and planning.
Learn how to choose the appropriate parameters for different equivalent circuit models of synchronous machines, and how to validate, adjust, optimize, and identify…
Learn how to update and maintain your power system models over time with these tips and best practices on data collection, model calibration, validation…
Learn how to evaluate the impact of distributed generation and storage on the network planning and operation, and how to optimize the network design and control.
Learn about the emerging technologies and trends for voltage sag and swell correction in power systems, such as power electronic devices, superconductivity, AI, and…
Learn about the emerging technologies and tools that can enhance your voltage and reactive power monitoring and analysis capabilities in the modern grid.
Learn how to perform load flow sensitivity and contingency analysis for your power system using some basic steps and concepts. Find out the benefits, challenges…
Learn how to design adaptive and robust control strategies for microgrids and islanded systems, small-scale power networks that can operate independently or in…
Learn how to design a reliable and efficient HVDC converter station for power transmission. Discover the components, types, and factors of HVDC converters.
Learn about the advantages and disadvantages of physical, rotating, stationary, and synchronous reference frames for analyzing synchronous machines in power systems.
Learn how PMUs and WAMS can monitor and control different types of power system stability in real-time, using synchronized and high-resolution data.
Learn how to deal with voltage and reactive power issues caused by large-scale contingencies or faults in power systems using various strategies and techniques.
Learn how to apply synchrophasor technology for power system stability monitoring and control. Discover the benefits, components, applications and challenges of…
Learn what corona discharge is and how it affects high-voltage transmission lines. Find out how to measure and reduce corona discharge using various methods.
Learn how to use linearized models, eigenvalue analysis, modal analysis, and control strategies to assess and enhance the small signal stability of your power…
Learn how to balance the trade-offs between load forecasting and demand response in power systems. Explore the objectives, constraints, methods, benefits, and…
Learn how to model and incorporate uncertainty and variability in contingency analysis for electrical grids, and what benefits it can bring to your power system…
Explore the current trends and future directions of power system stability research, and how they can address the challenges and opportunities of the evolving power…
Explore the main challenges and opportunities for deploying large-scale energy storage systems to enhance the flexibility and resilience of the power system.
Learn what are the main causes and effects of high voltage surges in power systems, and how to choose and use the best surge protection methods and devices.