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Gila Al-Tawakol electric, an electrical solutions provider and panel builder, started their digitization transformation by switching from a general CAD software program to SEE Electrical. In order to satisfy the increasing need for specialist electrical design capabilities, this change was crucial. In order to guarantee a seamless transition, our change management strategy included thorough training programs, active stakeholder participation, and a phased implementation approach was essential to this process. This product demonstration discusses this journey, overcoming early resistance, encouraging a culture of continual development, and utilizing SEE Electrical's cutting-edge capabilities to increase our design accuracy and efficiency. This presentation reveals how this change is leading to more innovation and quality in our industry by streamlining our operations, reducing errors, shortening project timelines, and most importantly exploring new customizations and enhancements.
The escalating demand for fleet electrification across the U.S. presents a significant challenge to existing distribution infrastructure, necessitating EV charging management strategies to meet electrical energy demands and address power quality issues. Level 2 and Level 3 EV chargers, equipped with power electronic converters and PWM technology, generate non-sinusoidal currents, exacerbating power quality concerns at individual sites. The effect of rapid voltage changes (RVC) introduced by this equipment is also discussed. This case study features insights and observations from field-recorded measurements of unbalanced (per-phase) harmonic distortions at a site with over 300 electric van charging stations. The unbalanced harmonic analysis (UBHA) conducted by Eradeh Power Consulting using ETAP Software for the site, revealed distortion limits being exceeded for individual phase currents and voltages as well as power distribution equipment rating overloads (such as transformer K-rating and cable thermal limits). The presentation also discusses how unbalanced harmonic distortions calculated within the site and at the point of common coupling (PCC) can be mitigated using techniques such as the use of active / passive harmonic filters amongst others.
Engineers face unique challenges when calculating DC Arc Flash incident energy for Battery Energy Storage Systems (BESS). Battery short circuit current is highly variant, and factors such as battery chemistry, and how the installation arrangement of BESS have significant differences in short circuit behavior. As well, traditional methods of calculating DCAF have been determined to fall short when it comes to BESS. In this demonstration, these variations will be discussed, including PPE considerations. Following this, a demonstration of the Transient DC Arc Flash solution provided by ETAP solutions will be presented. The presentation will show the usefulness of model validation, and the importance of high quality analysis methods to provide better accuracy in DC AF analysis for BESS.
斯泰伦博斯市(南非西开普省的一个地方市政当局,服务超过20万客户)一直在寻找一个有能力的 OEM 合作伙伴,为其控制中心建立一个 SCADA 主站提供端到端支持,以监督和操作其配电网络。此外,他们还需要协助准备 SCADA 主站系统的配置,并实现一个完全集成的变电站保护和控制解决方案。
在 Altek 欧美A片(南非 ETAP 系统集成商)的帮助下,该项目得以执行,以实现客户的目标。本次演示讨论了在市控制中心分阶段实施的新 SCADA 主站。第一阶段是在控制中心建立 SCADA 并连接7个变电站。下一阶段将是为 SCADA 系统添加 DMS(配电管理系统)和 OMS(运行管理系统)功能。
选择 ETAP 进行此阶段是因为其模块化和可扩展的平台,便于在未来基于 ETAP SCADA 系统构建,以满足其配电管理系统的需求。
Multiple arc flash incident energy mitigation methods are available, but how does an engineer know which is best for their client? This presentation identifies an approach to follow to pick the method, considering effectiveness, practicality, feasibility, and overall best option for realistic study results. With extensive experience with arc flash studies for many clients of all sizes, Mangan provides a real world demonstration of a project for a refinery client. The interplay between motor starting and arc flash analysis was evaluated, and mitigation recommendations were customized for the system. The challenges encountered during mitigation are identified, and the proposed solution is analyzed using ETAP Load Flow, Short Circuit, Arc Flash and Motor Acceleration Analysis. Safe motor operation, safe motor starting and arc flash protection are provided through customized mitigation methods and thoughtful system design.
This Red Sea Project is a groundbreaking endeavor in Saudi Arabia under the Saudi Vision 2030 economic development program. The project is powered by a fully renewable energy system, including large-scale solar photovoltaic (PV) system and a substantial 1.3 GWh energy storage system, effectively providing 100% clean energy to the development. As the Engineering, Procurement and Construction firm for this project, SEPCOIII has been involved with the design and construction of a wide range of permanent utility assets, including support facilities such as desalination plants, power generation facilities and distribution networks for water, electricity and natural gas. In this presentation, learn how SEPCOIII relied on ETAP's Advanced Distribution Management System (ADMS) to assist with the technology challenges for the project’s distributed energy power system, and how the solution is being used to manage and supervise the power distribution system to achieve better optimizations and improve system stability.
Discover the new Feeder Hosting Capacity module provided in ETAP 2024 to support solar PV systems being integrated into modern distribution networks. Incorporating PV arrays into existing feeders presents several challenges, including overvoltage, backflow, thermal overloading, protection mis-coordination, and increased harmonic distortion. To address these issues, it is essential to perform feeder hosting capacity (FHC) studies, which assess the optimal amount and placement of PV installations. By leveraging ETAP 2024's Feeder Hosting Capacity module, engineers and utilities can confidently integrate renewable energy sources into their grids while ensuring optimal performance and sustainability. The three key analysis options provided in ETAP FHC, Nodal HC, Stochastic HC and Impact Analysis are described in detail, along with how smart inverters are addressed.
The webinar is an opportunity to discover how the features in this release of GridCode contribute to better and faster grid code compliance evaluation in an automated fashion, including real and reactive power capability, and harmonic distortion and resonance. By carefully evaluating the impact of new generation on the grid, you’ll learn how to define and produce compliance studies that help protect the system, enable renewable energy growth, and promote cost-effective grid development.
ETAP 2024 has transformed how we assess DC arc flash incident energy for battery energy storage systems (BESS). In this video, you’ll learn about two of the cutting-edge features in ETAP 2024 that will redefine your approach to BESS Arc Safety.
This webinar will focus on time-saving tips and in the new ETAP 2024 Unified Digital Twin application to streamline your workflows, improve modelling accuracy, and expedite project delivery.
Introducing ETAP's new AI-based Natural Language Search! This feature makes interacting with ETAP as easy as having a conversation. Instead of navigating complex menus or using tricky commands, you can now ask questions and get answers using simple, everyday language. With advanced AI and natural language processing, ETAP’s Natural Language Search helps engineers, operators, and planners quickly find critical information, run analyses, and gather insights. This makes the software easier to use and speeds up your work. Whether you need detailed system data, want to set up simulations, or access documentation, this feature simplifies everything, letting you focus on making decisions. By integrating this intuitive search tool, ETAP is making powerful power system analysis more accessible and user-friendly for everyone.
Join us in a webinar that focuses on new ways to elevate your ETAP software experience, highlighting the significant enhancements you’ll find in ETAP 2024 to boost your productivity. With the new ETAP 2024 Release, we are revolutionizing our software with ETAP PowerRibbon™ - An intuitive user interface that matches the power and precision of ETAP.
Explore our 3D electrical cabinet design software: Harness the power of 3D using a professional intuitive interface, Automate panel mounting and assembly and Reduce design, manufacturing and startup costs.
Discover the new modules and features of ETAP 2024 in a presentation from ETAP CEO, Tanuj Khandelwal to get a high level overview and demonstrations of the impressive array of integrated power analysis modules, model-driven automation and situationally intelligent operation solutions provided in this release. Learn why ETAP 2024 marks a significant advancement in our commitment to delivering innovative technology and industry best practices, to keep your power systems safe, reliable, efficient, sustainable and compliant with the highest industry standards.
In this webinar, we'll provide a comprehensive overview of ETAP eTraX, a powerful solution designed for the design, analysis, optimization and operation of both AC and DC rail traction systems.
Edge control solution for microgrids & distributed energy resources. Mission critical operations need a reliable power system that operates by supplementing the utility grid in parallel mode (tied) or autonomous island mode in a clean, optimized, low cost and resilient manner.
The variable nature of renewable energy introduces power quality concerns, including frequency and voltage control, that may negatively impact the reliable performance of a power system. Grid codes, interconnection, or evacuation criteria must be followed during the proposed system design and continue to maintain compliance under grid-connected operation.
The fault response characteristics of synchronous generators are inherently governed by their physical attributes and construction. In contrast, the fault response traits of Inverter-Based Resources (IBRs) are intricately tied to manufacturer-specific control schemes and settings. This intricacy adds complexity to accurately representing IBR behavior during fault conditions, particularly given the rapid advancements in inverter technology and the diverse control strategies employed by manufacturers.
Washington State University collaborates with IIT and ETAP on developing benchmark test feeder systems for the DOE UI-ASSIST project, showcasing ETAP's capabilities through the design and modeling of the IIT Rural Benchmark and modified IEEE 123-node systems, with validation conducted across MATLAB/SIMULINK and ETAP for various distribution studies.