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Comprehensive Simulation Services

At EdgeTunePower (ETP), we offer comprehensive steady-state and dynamical analyses for power systems at the transmission and distribution levels. Our services include load flow and short-circuit studies; as well as, voltage stability, reactive power cable ampacity, and system stability analysis. Such studies and analysis ensure optimal power flow and voltage stability, and efficient load distribution while enhancing system's reliability.

Comprehensive Studies of Complex Power Systems

At ETP, we excel in conducting in-depth studies of complex power systems to ensure optimal performance, reliability, and efficiency. Our team of experts utilizes advanced analytical tools and simulation software to evaluate and enhance the functionality of diverse power system components. From analyzing dynamical behavior and supervisory control systems to designing robust protection schemes and control coordination, we provide tailored solutions that meet the unique demands of each project. Trust ETP to deliver comprehensive insights and innovative strategies for the most challenging power system environments.

Wide Range of Analysis for Bulk Power System:

At EdgeTunePower (ETP) we possess the necessary expertise to conduct a comprehensive array of steady-state and dynamical analyses for bulk power systems, which encompass:

  • Load Flow Analysis: Comprehensive assessments to ensure optimal power flow, voltage stability, and efficient load distribution.

  • Short Circuit Analysis: Detailed evaluations of fault currents to determine protective equipment ratings and enhance system reliability.

  • Voltage Stability Analysis: Thorough examinations to maintain steady voltage levels and prevent potential voltage collapse issues.

  • Reactive Power Analysis: Strategic assessments for efficient reactive power compensation, voltage regulation, and transmission loss minimization.

  • Cable Ampacity Calculation: Evaluating the current-carrying capacity of power cables to ensure they can handle the expected load without overheating or causing any damage.

  • System Stability Analysis: In-depth evaluations of the dynamic behavior under various disturbances to guarantee a stable and secure power system operation.

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Connection Impact Assessment of IBRs and DERs:

At ETP, we evaluate interconnection of DERs and IBRs considering the technical, operational, and regulatory aspects of the grid interconnection process.

  • Power Quality Impact Assessment: Assessing the potential influence of DERs and IBRs on power quality parameters such as harmonics, voltage flicker, and other disturbances, ensuring compliance with power quality standards.

  • Voltage Impact Assessment: Analyzing the influence of DERs and IBRs on the voltage profiles of the network, including voltage fluctuations, overvoltage, undervoltage, and voltage imbalance.

  • Frequency Impact Assessment: Evaluating the impact of DERs and IBRs on the grid frequency, considering their potential contributions to frequency deviations and the overall stability of the power system.

  • Grid Resilience Impact Assessment: Evaluating the ability of the grid to withstand and recover from disturbances and outages, considering the integration of DERs and IBRs and their role in supporting grid resilience.

  • Grid Capacity Impact Assessment: Analyzing the impact of DERs and IBRs on the grid capacity, including the assessment of line and transformer loading, thermal constraints, and potential congestion issues.

Trusted Partners

Control & Protection of DERs and IBRs

Control and protection of Distributed Energy Resources (DERs) and Integrated Battery Resources (IBRs) is crucial for ensuring the stability and reliability of the power grid. Our solutions provide advanced control and protection features to help utilities manage these resources effectively and efficiently. With our technology, you can optimize the use of DERs and IBRs while maintaining stability and security.

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Power System Protection Services:

Trust us as your one-stop shop for all your protection system needs.

  • Comprehensive fault studies

  • Relay protection system development

  • Precision relay & re-closer setting, fuse selection, and protection system coordination

  • Protection system simulations

  • IBR and DER plant protection

  • State-of-the-Art relay testing Craft and verify system integrity protection schemes

  • Optimal control-protection coordination for DERs & IBRs

  • Recommendations for upgrading protection systems

  • Design protection, automation, and communication systems

  • Tailor-made fault location scheme designs

  • Design, test, and implement FLISR Schemes

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Time-domain Electromagnetic and Phasordomain Simulation:

  • Comprehensive study of microgrid systems in gridconnected, islanded and Virtual-Power-Plant (VPP) modes,

  • Transient Recovery Voltage (TRV), Temporary Overvoltage (TOV), Inrush Current and Lightning Protection,

  • Incorporate blackbox model of OEMs of IBRs and DERs into our customers’ power system simulation models to ensure compliance with grid codes and standards,

  • Enable protection coordination with control systems to ensure proper operations of IBRs and DERs

Sub-Synchronous Resonance Analysis

ETP offers specialized Sub-Synchronous Resonance (SSR) analysis to identify and mitigate potential risks in power systems. Our team of experts employs advanced modeling and simulation techniques to thoroughly evaluate the interactions between electrical networks and turbine-generator systems. By detecting and addressing SSR issues early, we help prevent equipment damage, improve system stability, and enhance overall operational reliability. Trust ETP to provide comprehensive SSR analysis and solutions tailored to your specific power system needs.

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Our dedicated team at ETP has successfully executed a series of Sub Synchronous Oscillation (SSO) studies tailored for commercial purposes. These studies encompass a wide range of generation interconnection scenarios, including both conventional and Inverter Based Resources (IBR) facilities with generation capacities spanning from 20 MW to a substantial 300 MW. Our expertise in the field of power systems engineering is evident in our comprehensive methodology and utilization of industry-standard Electro Magnetic Transient (EMT)-based software and phasor domain software to carry out these critical investigations.

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Our meticulous process begins with evaluating the system's configuration and generation interconnection, considering parameters like system impedance, generator characteristics, and load profiles. Through rigorous modeling and simulation in EMT-based and phasor domain software, we replicate realworld scenarios to gain precise insights into Sub-Synchronous Oscillation (SSO). This ensures the reliability and accuracy of our studies, enabling us to understand your power system's behavior under diverse conditions. We then identify critical resonance

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