Интегрированное проектирование и анализ переменного и постоянного тока
Управляемые модели SCADA, EMS, PMS, ADMS и SAS
Интеллектуальные Контроллеры и Система Управления
Единая платформа цифрового двойникаПроектирование, эксплуатация и автоматизация
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Mission critical operations need a reliable power system that operates by supplementing the utility grid in parallel mode or autonomous island mode in a clean, optimized, low cost and resilient manner.ETAP μGrid™ (Microgrid) includes an advanced electrical digital twin model combined with intelligent automation and system protection to optimize and control simple or complex microgrid electric and thermal systems.
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ETAP Microgrid Control offers an integrated model-driven solution to design, simulate, optimize, test, and control microgrids with inherent capability to fine-tune the logic for maximum system resiliency and energy efficiency.
ETAP Microgrid software allows for design, modeling, analysis, islanding detection, optimization and control of microgrids.
ETAP Microgrid software includes a set of fundamental modeling tools, built-in analysis modules, and engineering device libraries that allow you to create, configure, customize, and manage your system model. Microgrid controller response can be verified and validated prior to connecting it into the field.
ETAP offers a fully configurable model-driven microgrid controller that provides considerable flexibility to achieve desired control functionalities. Once the controller logic is deployed to the ETAP Microgrid controller hardware software-in-the-loop (SIL) or hardware-in-the-loop (HIL), testing can be utilized where the physical controller interacts with the model of the microgrid and associated devices.
ETAP Microgrid Controller hardware is designed for environments while delivering optimal performance, fast response, and security.
<1 MWPortable Microgrid Controller
< 20 MWMountable Microgrid Controller
> 20 MWMountable Microgrid Controller
ETAP offers engineering services in the entire process of design, analysis, monitoring and programming of control functions based on user requirements.
ETAP Microgrid Energy Management System is an-all-inclusive holistic software and hardware platform that provides complete system automation for safe and reliable operation.
The solution integrates with onsite Cogeneration, Solar PV, Energy Storage, Absorption Chillers, and more to manage load demand and cost-effective generation in real-time.
Use ETAP Digital Twin to design, analyze, and validate, and configure the microgrid system, objectives, and logics. Validate controller logic with ETAP software-in-the-loop (SIL) or hardware-in-the-loop (HIL) systems then simply transfer the model to ETAP Microgrid Controller to deploy.
After deployment, the controllers can control live microgrids via their communication systems and can be fine-tuned and re-deployed instantly without any decommissioning. Use the controller hardware to view, adjust parameters, set up function, update logics via easy to use HMIs that consolidates all necessary information.
Intelligent real-time situational awareness and forecast-driven predictive simulations to reliably and accurately determine short-term loading and generation, especially from inconsistent sources such as wind and solar.
ETAP Microgrid automatically identifies and adapts to system changes using proven control and optimization algorithms to handle unexpected events. Proactive generation dispatch and switching control logics regulate voltage and frequency for system preservation during and after an islanded condition.
ETAP’s Advanced Microgrid Management Control considers and responds to multiple contingencies simultaneously to preserve critical loads.
Evaluate energy-reducing strategies such as moving on-peak usage to off-peak periods or shifting from one rate schedule to another to improve the bottom line. Fast load curtailment and remedial actions based on load and generation changes and priorities.
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ETAP's μGrid™ solution combines model-driven microgrid controller hardware with advanced power management software to unlock system resiliency, optimized cost, security, and sustainability for microgrid systems. Part I of the webinar series focuses on microgrid design and software-based validation.
This webinar examines the microgrid controller’s architecture, hardware deployment workflow, and a range of advanced monitoring tools. Learn how ETAP Digital Twin platform enables the design and deployment of ETAP's Intelligent μGrid™ solution.
In this webinar, learn how ETAP's Transient Stability module addresses needs and challenges of stability studies for power systems with DERs.
This webinar demonstrated how the integration of battery energy storage systems improves system reliability and performance, offers renewable smoothing, and can increase profit margins of renewable farm owners.
The implementation of a Microgrid involve several stages, in which the engineer has to deal with the interaction of different processes and dynamics, taking into account the different modes, topologies and scenarios that the system could possibly have. This is the case of an ongoing project for an important Grid operator in Colombia, in which PTI S.A and OTI are working together to deliver a comprehensive Monitoring and Control system for an entire Microgrid, comprised of different energy resources as Diesel, Solar, Batteries and a connection to the Public Grid. Project stages involve Planning, Design, Validation, In site Deployment and Testings, and for that purposes, Etap PS/RT and Opal RT solutions will be used, on a Digital Twin Platform environment.
A power plant's reactive power capability using a synchronous generator is the amount of reactive power that the unit can produce under design constraints and system operating limitations. Unit capability can determine the reactive power support to improve the Bulk Electric System's voltage profile (BES) if needed. Therefore, it is crucial to define the reactive power limits to evaluate the voltage support available under normal, abnormal and emergency operations with the unit's safe functioning. The published generator thermal capability curves define the limits required for the generator's safe operation. These curves are produced by the generator manufacturer based solely on the generator design's thermal limitations. But practically, when employed in a power plant, the available reactive capability differs from the published equipment curves due to the plant specific design and operating constraints.
This presentation aims to explain the necessary stages to comply with the technical criteria established in the Mexican grid code. The case presented is a steel manufacturing plant with intensive use of induction furnaces and a THD that exceeded the Grid Code's limits. This presentation will highlight the compliance, diagnosis, engineering (studies of electrical power systems using ETAP), and equipment designed to comply with the technical criteria and mitigation. ETAP was used to size a filter to mitigate harmonics and improve the power factor for 34.5 kV transformers to comply with the Mexican grid code.
This presentation highlights the use of modern technology to uncover opportunities available through power system studies, to improve the reliability and the efficient operation of a vertically integrated power system. Due to experiences of system shutdowns stemming from drastic frequency decline associated with the loss of relatively larger generating units, Fortis TCI embarked on exploring opportunities to curtail these events to improve system response. This was achieved through detailed modeling and validation of system parameters with event data gathered from previous events. A carefully implemented Remedial Action Schemes (RAS) is currently being explored to provide cost-saving benefits to significantly improving frequency response, without the need for larger spinning reserve and likewise minimize investment costs for Battery Energy Storage System (BESS).