From protective device coordination, arc flash, load flow and voltage profile calculations to transient analysis with auxiliary power systems interfaces, we must stay current with the latest in software technology, and [the ETAP Nuclear User Utility Conference] is a best practice in achieving that.
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Featured Solutions. Latest News. Nov 16, Awards Nov 16, In the News. Nov 3, Awards Nov 3, In the News. View all News. Upcoming Events. View all Events. Featured Videos. Browse all Videos. Duke Energy. The CYME Power Engineering software is a suite of applications composed of a network editor , analysis modules and user-customizable model libraries from which you can choose to get the most powerful solution.
Distribution Analysis CYMDIST To perform several types of analysis on balanced or unbalanced three-phase, two-phase and single-phase systems that are operated in radial, looped or meshed configurations. Steady State Analysis with Load Profiles To perform accurate time range analysis based on a combination of AMR data and historical consumption patterns. Distribution State Estimator To analyze the unbalanced power flow and the voltages at every level of a distribution power system.
Reliability Assessment Provides a framework within which predictive and historical reliability assessment scenarios are run and the impacts of the related investment such as DA Distribution Automation can be evaluated and understood. Techno-Economic Analysis Facilitates the evaluation of the feasibility and the profitability of a project based on the factual system model. Harmonics Performs harmonic penetration analysis in electric power systems.
It features single phase and full three-phase modeling capabilities and includes a large library of pre-defined models for network equipment and harmonic current sources.
The Frequency scan capability included in this module is also available as an independent module. This analysis provides full impedance scan results and allows the user to see problematic areas even before installing harmonic devices. Long-Term Dynamics Analysis Time-series simulation to study the impact of irradiance variations, wind fluctuations and load variations on network controls such as regulators, load tap changers and switched capacitors, and on the behavior of battery energy storage devices.
Integration Capacity Analysis Addresses DER and load interconnection issues by determining the maximum allowable capacity that can be added at any point of the network without violating a set of constraints. Allows to quickly assess the hosting capacity of the network and filter out interconnection requests that are non-compliant.
The analysis automates a series of time-consuming, repetitive and error-prone verifications and returns insightful results that clearly identify violations. Network Disturbance Assessment D-A-CH-CZ To determine the acceptability of a new load or generator interconnection by evaluating its impact on a series of power quality criteria. Distance Protection Analysis Helps engineers design and verify their protection scheme, and address different coordination issues in any power system.
Optimal Voltage Regulator Placement Allows the installation of voltage regulators at optimal locations on a distribution feeder. Optimal Recloser Placement Designed to help engineers handle the complexity of the system reliability improvement issue. Arc Flash Hazards To analyze and promote the electrical safety for employees working on or near electrical equipment. It computes the necessary parameters required to assess the risk level and adopt the adequate safety procedures.
Two modules are available to address specific needs. Motor Starting For the dynamic, locked rotor and maximum start size analyses dedicated to simulating the effects of induction and synchronous motor starting in three-phase electric power systems.
Load Flow Contingency N-p To assist in power flow related static contingency analysis. To create contingency events and single- or multiple-outage scenarios and compare to a base case.
Protective Device Coordination The module provides engineers with a wide range of tools to efficiently and accurately design and validate the coordination scheme of their power system. Network Configuration Optimization Assists in determining the optimal feeder configuration that will minimize losses, improve the voltage profile and balance the load between feeders.
Contingency Assessment and Restoration To study the impact of forced or planned outages on the electrical distribution system and find the optimal switching plan to restore electrical power to priority customers and to recover the maximum possible load in the affected areas. Enhanced Substation Modeling To model all the major components of the distribution substation and any sub-network such as the detailed modeling of an industrial facility.
Secondary Grid Network Analysis Allows the Power Flow and Short Circuit analyses of heavily meshed secondary grid network distribution systems for any voltage level. Low-Voltage Secondary Distribution Modeling Functionality to model in detail low-voltage distribution systems within a one-line diagram.
The connectivity network extracted from the GIS is accurate, electrically complete, with actual loads and switch status; and this network model can be updated easily. It provides the user with great flexibility in creating the one-line diagram of the network as well as providing a wide variety of options to customize the displays and reports.
All the modules presented in this section require the Network Editor to run. Power Flow To perform power flow analysis in three-phase electric power networks.
Fault Analyses For the determination of short-circuit currents that result from different fault phenomena, the estimation of fault locations, the identification of under-rated equipment in electric power systems and the sizing of various system components. DC Arc Flash Hazards Analysis To help engineers identify arc flash risk levels of their DC network and adopt the necessary safety measures Low Voltage Cable Sizing To select the right type of cable for low voltage installations Protective Device Coordination The module provides engineers with a wide range of tools to efficiently and accurately design and validate the coordination scheme of their power system.
Harmonics To perform harmonic penetration analysis in electric power systems. Transient Stability To simulate the electro-mechanical response of an electric power system to transient disturbances.
It includes a large library of pre-defined models for network equipment and control systems. Voltage Stability To assess the ability of a power system to maintain stable voltages under different contingencies and loading conditions. Optimal Power Flow Allows the user to engage in advanced system planning studies to optimize system performance, examine cost-efficient operational planning alternatives, articulate system control strategies and rationalize equipment utilization, resulting in better overall system asset management.
Other modules can be added to the suite of applications and modules for the analysis Transmission and Industrial power systems: Advanced Project Manager, Enhanced Substation Modeling. Cables in Tunnels Determines the temperature, steady state, cyclic and transient ampacity of cables installed in unventilated tunnels.
Cables in Troughs Determines the thermal rating of cables installed in filled or in unfilled troughs. Duct Bank Optimizer Determines the optimal placement of several circuits within a duct bank. More specifically, the module can recommend the various circuit disposition within the duct bank Magnetic Fields Computes the magnetic flux density at any point on or above the surface of an underground cable installation.
Short Circuit Cable Rating Calculates the rating of cables for short circuit currents. Cable Crossing To correctly take into consideration the derating effect that two circuits crossing have on the ampacity of each other, depending on their crossing angle.
Software Training. Useful links Brochure Services. View legal restrictions and terms of use applicable to this site. CYME Power Engineering Software The CYME Power Engineering software is a suite of applications composed of a network editor , analysis modules and user-customizable model libraries from which you can choose to get the most powerful solution.
To perform several types of analysis on balanced or unbalanced three-phase, two-phase and single-phase systems that are operated in radial, looped or meshed configurations. Supports the collaborative and detailed preparation of a project that consists in modifications to the network with related simulations. Automated Network Forecast Analysis.
Steady State Analysis with Load Profiles. To perform accurate time range analysis based on a combination of AMR data and historical consumption patterns. Transmission Planning, Indian Electricity Rules and State Regulations for transmission line, Choice of Route of transmission line, Overhead transmission line Clearance Selection of conductors for transmission line and Selection Insulator and fittings Spacing of Conductors in transmission lines Calculation of SAG and Tension Selection of transmission line towers Overhead transmission line lightning Calculation.
Module Practical Training Report on a complete substation projects for study as a reference after completion of designing training. Duration: This 70 hours program consists of 14 modules with industrial meaningful assignments and projects for the electrical business Unit Areas as listed above.
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