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ETAP 弧闪分析软件带给你新的强化功能,这些功能可以更快速方便地评估弧闪危险和入射能量分析。通过仿真和评估多种方法的弧闪分析,更加灵活地识别和分析电力系统高危险弧闪区域。
弧闪分析程序一个款全面集成的模块,用于分析多种工况以确定最严重情况的弧闪能量等级。弧闪计算软件模块还可以一键生成专业的报告和高质量的弧闪标签。
弧闪分析模块不但包括全面的单相和三相弧闪评估计算,还包括非常重要的弧闪分析工具以总结弧闪分析结果。
直流弧闪作为一个独立的模块用于计算直流应用。
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DC Load Flow, DC Short Circuit, DC Arc Flash, Battery Sizing & Discharge Analysis
Identify and analyze high risk arc flash areas in your electrical system
Network Analysis includes modules such as Short Circuit, Load Flow, Arc Flash, Motor Starting and more.
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ETAP通过在能源成本高的时候转移非必要的负荷,为行业带来了显著的能源节约
根据《EC&M》杂志发布的前 40 家电气设计公司排名,前 10 家电气设计公司中 100% 都依赖 ETAP
ETAP 已成为核电站的事实标准
ETAP已应用于世界各地的政府机构和武装部队的设施中。
ETAP使设计人员和工程师能够概念化收集系统,确定风力渗透并进行并网分析
石油和天然气勘探将公司带到了地球上一些最偏远、最不适宜居住的地方寻找能源
ETAP为智能数据中心提供了先进的电气分析、仿真和运行解决方案。
世界顶级制造商依靠ETAP来满足行业的严格要求
从基本的备用系统到24/7的关键任务发电,世界上一些最先进的发电厂都依赖ETAP
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This webinar will provide an overview of the fundamental differences between the IEEE 1584-2018 and existing arc flash methods. To better understand how the 2018 model combines empirical and arc flash physical behavior, the presentation will cover background and insights into the model development validation.
ETAP Arc Flash Analysis software is used to perform arc flash analysis for systems from 0.208 kV to 15 kV in accordance with IEEE 1584-2018 “IEEE Guide for Performing Arc Flash Hazard Calculations.” The software determines the incident energy and arc flash boundary values required to comply with NEC equipment labeling. It also provides hazard evaluation for shock protection and arc flash PPE according to NFPA 70E 2018.
New Standard, New Method, New Learning Curve
Introduction to ETAP Arc Flash Hazard Analysis module with instructions on how to setup arc flash calculations.
This article presents different methods for assessing the hazards of high- and low-voltage 1-phase equipment. One common question being asked is how to determine the hazard level associated with 1-Phase (1-P) Arc Flash (AF) incidents. There is very little information about this type of circuit in the available guidelines such as CSA Z462-08, NFPA 70E 2009 & IEEE 1584 2002. If the right risk level is not properly determined, we run the risk of over-protecting or under-protecting personnel that are working on this type of electrical system. The objective of this article is to present different methods for assessing the hazards of high and low voltage 1-P equipment, and to justify the results taking into consideration the behavior of arc faults at different voltage levels.
It's important to understand the Hazard/Risk Category levels listed in NFPA 70E, but just as important to understand the limitations of these tables.
This article explains how arc flash software is essential to identifying and analyzing high-risk arc flash areas, so you can help keep your electrical staff safer.
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