WindESCo Swarm utilizes high-frequency SCADA data to detect and correct yaw misalignment automatically. This means continuous optimization of turbine alignment without manual intervention, boosting power production. Why is this crucial? Wind conditions change seasonally, affecting turbine performance. Our algorithm ensures turbines are aligned with the rotor-averaged wind vector, adapting dynamically to maximize output. Read More: https://hubs.la/Q02DKxzN0
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🌬️ Harness the power of precise wind energy optimization with Swarm™ to ensure maximum efficiency through continuous yaw misalignment corrections, all seamlessly integrated into your operations. Why is continuous correction crucial? Wind patterns vary seasonally, affecting rotor-averaged wind vectors and potentially reducing power generation. Our advanced algorithm monitors these changes, ensuring turbines are always aligned for peak performance. Learn more: https://hubs.la/Q02G9Cqn0
Automatically Correct Yaw Misalignment with WindESCo Swarm™
windesco.com
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The Black Box Digital Twin – Data-Driven Insights Our earlier post covered the White Box method’s detailed, physics-based modeling. This time, we are focusing on the data-driven Black Box approach. It is a standout for its ability to: ↳ Predict equipment breakdowns before they happen ↳ Identify outliers and anomalies in operations ↳ Suggest the most efficient ways to run systems ↳ Reduce downtime and perfect resource use This method is excellent for complex scenarios where it is difficult to construct correct physics-based models, such as in a wind farm. Check out the carousel to see how the black box digital twin and Smart RDM use machine learning to generate predictive models for wind farm operations. #TheBlackBoxDigitalTwin #Energy #WindFarm #PredicitiveMaintenence #SmartRDM #ConnectPoint #Industry4_0 #ProcessOptimization
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Together with D3 Applied Technologies we developed a digital model of the newest roof model Flag Turbines. And we tested our operating concept..; does a #FLAGTURBINE yield more power at lower rpm, with variable pitching? Yes, it does, significantly. Let's further tweak all the parameters to get the most out of it... The coolest of all is the comparison with real life data. Maybe a wind tunnel, but anyway a field setup. When the real world gives comparable outcomes, then we understand all aspects of our variable pitching #VAWT technology. And then we can predict the power output for larger, MEGA large turbines, or hydroturbines as well. Still some steps to take, but we will get there!
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🔌🔄 Power System Frequency and Inertia: A Vital Balancing Act 🔋⚙️
🔌🔄 Power System Frequency and Inertia: A Vital Balancing Act 🔋⚙️ As our world transitions toward cleaner and more sustainable energy sources, understanding the intricacies of power system dynamics becomes crucial. Let’s delve into the fascinating realm of frequency control and inertia in electrical grids. 🌐 What Is Power System Inertia? 🌐 In an electric system, the energy stored in rotating generators and motors provides inertia. These machines rotate at the same frequency as the electricity grid, acting as a buffer against rapid changes. 🔄 Why Does Inertia Matter? 🔄 Imagine a massive flywheel—like those found in old steam engines—spinning at a constant speed. When an external force tries to alter its rotation, the flywheel resists due to its inertia. Similarly, the rotating masses of synchronous generators in power systems provide inertia. When a disturbance occurs (say, due to a sudden load change), these SGs release the kinetic energy stored in their rotating masses, helping maintain grid frequency within an acceptable range. 🔍 Challenges: 🔍 The landscape is changing. The rise of converter-connected resources (such as wind turbines and solar panels) has led to a reduction in available rotational inertia. Unlike traditional SGs, these resources lack the inherent inertia response. As a result, grid frequency dynamics have become faster, posing challenges for grid stability. 🌟 Solutions: 🌟 Transmission system operators (TSOs) are actively seeking solutions to compensate for the loss of inertia. Here are some approaches: Synchronous condensers, whether existing, refurbished, or newly installed. They provide the necessary rotational mass to stabilize grid frequency in case of sudden active power imbalance. Synthetic Inertia Control: Algorithms that mimic inertia response. Fast Frequency Response: Quick active power reserves to restore network balance. 🚀💡 Let’s keep the conversation going! Share your insights on power system dynamics and the role of inertia in our energy transition. 🚀💡 #PowerSystems #RenewableEnergy #GridStability #InertiaMatters #KiviSolve
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🔌🔄 Power System Frequency and Inertia: A Vital Balancing Act 🔋⚙️ As our world transitions toward cleaner and more sustainable energy sources, understanding the intricacies of power system dynamics becomes crucial. Let’s delve into the fascinating realm of frequency control and inertia in electrical grids. 🌐 What Is Power System Inertia? 🌐 In an electric system, the energy stored in rotating generators and motors provides inertia. These machines rotate at the same frequency as the electricity grid, acting as a buffer against rapid changes. 🔄 Why Does Inertia Matter? 🔄 Imagine a massive flywheel—like those found in old steam engines—spinning at a constant speed. When an external force tries to alter its rotation, the flywheel resists due to its inertia. Similarly, the rotating masses of synchronous generators in power systems provide inertia. When a disturbance occurs (say, due to a sudden load change), these SGs release the kinetic energy stored in their rotating masses, helping maintain grid frequency within an acceptable range. 🔍 Challenges: 🔍 The landscape is changing. The rise of converter-connected resources (such as wind turbines and solar panels) has led to a reduction in available rotational inertia. Unlike traditional SGs, these resources lack the inherent inertia response. As a result, grid frequency dynamics have become faster, posing challenges for grid stability. 🌟 Solutions: 🌟 Transmission system operators (TSOs) are actively seeking solutions to compensate for the loss of inertia. Here are some approaches: Synchronous condensers, whether existing, refurbished, or newly installed. They provide the necessary rotational mass to stabilize grid frequency in case of sudden active power imbalance. Synthetic Inertia Control: Algorithms that mimic inertia response. Fast Frequency Response: Quick active power reserves to restore network balance. 🚀💡 Let’s keep the conversation going! Share your insights on power system dynamics and the role of inertia in our energy transition. 🚀💡 #PowerSystems #RenewableEnergy #GridStability #InertiaMatters #KiviSolve
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ENTREPRENEUR | INNOVATION | EDUPRENEUR | MANAGEMENT | OPERATIONS | MARKETING | MENTORING | BUSINESS STATERGY
𝗪𝗲 𝗩𝗮𝗹𝘂𝗲 𝘆𝗼𝘂𝗿 𝗰𝗼𝗻𝗳𝗶𝗱𝗲𝗻𝗰𝗲 & 𝗣𝗿𝗼𝘃𝗶𝗱𝗲 𝘁𝗵𝗲 𝗕𝗲𝘀𝘁 𝗤𝘂𝗮𝗹𝗶𝘁𝘆 An industrial CF (CompactFlash) card is crucial in wind power generation for data logging and control system operations. Its robust design withstands harsh environmental conditions, ensuring reliable performance in wind turbines. With ample storage capacity and fast data transfer rates, CF cards facilitate seamless operation, enhancing efficiency and longevity in wind power infrastructure at Convora. 𝗖𝗼𝗻𝘁𝗮𝗰𝘁 𝗨𝘀 +91-9901642978 +91-8062177370 www.convora.co #invehiclecomputing #storage #solutions #Aerospace #robustsolution #CFcard #StorageInnovation #TechAdvancements #SSD #5G #railTransitSSDSolutionssolutions #DataManagement #railTransit #InnovativeTech #AdvancedStorage #CuttingEdgeTechnology #FutureTech #DigitalTransformation #PatentedInnovations #AutonomousControl #ExclusiveProcesses #DataRevolution #NextGenStorage #InnovationLeadership
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#mdpienergies #highlycitedpaper Contribution of Voltage Support Function to Virtual Inertia Control Performance of Inverter-Based Resource in Frequency Stability 👉https://lnkd.in/gG6HUETR #frequency stability; #inverter-based resource; #virtual inertia; #grid-forming; #grid-following; #PLL; #RoCoF
Contribution of Voltage Support Function to Virtual Inertia Control Performance of Inverter-Based Resource in Frequency Stability
mdpi.com
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𝗪𝗲 𝗩𝗮𝗹𝘂𝗲 𝘆𝗼𝘂𝗿 𝗰𝗼𝗻𝗳𝗶𝗱𝗲𝗻𝗰𝗲 & 𝗣𝗿𝗼𝘃𝗶𝗱𝗲 𝘁𝗵𝗲 𝗕𝗲𝘀𝘁 𝗤𝘂𝗮𝗹𝗶𝘁𝘆 An industrial CF (CompactFlash) card is crucial in wind power generation for data logging and control system operations. Its robust design withstands harsh environmental conditions, ensuring reliable performance in wind turbines. With ample storage capacity and fast data transfer rates, CF cards facilitate seamless operation, enhancing efficiency and longevity in wind power infrastructure at Convora. 𝗖𝗼𝗻𝘁𝗮𝗰𝘁 𝗨𝘀 +91-9901642978 +91-8062177370 www.convora.co #in-vehiclecomputing #storage #solutions #Aerospace #robustsolution #CF card #StorageInnovation #TechAdvancements #SSD #5G #railTransitSSDSolutionssolutions #DataManagement #railTransit#InnovativeTech #AdvancedStorage #CuttingEdgeTechnology #FutureTech #DigitalTransformation #PatentedInnovations #AutonomousControl #ExclusiveProcesses #DataRevolution #NextGenStorage #InnovationLeadership
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Associate Head (Research) and Associate Professor (PolyU), IEEE OAJPE TF Chair, UK National Transmission System Operator and Planner, SMIEEE CEng
We are very glad to share our recent article regarding probabilistic frequency stability analysis considering wind power integration, published in IEEE Transactions on Power Systems. Existing probabilistic frequency stability studies rarely consider the internal dynamics of wind power generation with different control strategies, which can cause the inaccurate results especially when we equip wind power generation with fast frequency response to support system frequency. This paper proposes a multi-element low-rank approximation (MELRA) uncertainty propagation analysis method to tackle this problem with good accuracy and efficiency. For more details, please visit the link below: https://lnkd.in/gqM_HDpU #power #energy #decarbonization #renewableenergy #windpower #solarpower #electricvehicles #digitalization #powergrids #smartgrid #powersystems #security #stability #dynamics #frequency #operation #control #uncertainty #probability #powerelectronics #converters #situationalawareness #PMU #carbonneutral #carbonemissions #artificialntelligence
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