热门产物
AC Arc Flash
IEEE 1584-2018, NFPA 70E 2021
ArcFault™ - High Voltage Arc Flash
OSHA 1910.269, National Electrical Safety Code - NESC
DC Arc Flash
NFPA 70E, Maximum Power, Stokes & Oppenlander and Paukert
Arc Flash Auto-Evaluation
Automated Arc Flash Energy Evaluation
Arc Flash Safety Standards
Arc Flash Study & Analysis Compliance
Arc Flash Calculators
IEEE 1584-2018, DGUV-I 203-077, DC, ENA NENS 09-2014 & High Voltage Arc Flash
Arc Flash Mitigation Techniques
ZSI, Maintenance Mode, Current Limiting Fuses, Light Sensors
Hands-on Arc Flash Workshops
Stay up-to-date with the latest Arc Flash Standards
Advanced Analysis of Arc Flash Incident Energywith Protective Device Coordination Study
Please login or sign up to watch the video.
Perform arc flash analysis and automatically evaluate incident energy and arc flash damage points at multiple locations. Learn more
Download Brochure
ETAP Arc Flash Auto-Evaluation allows you to quickly evaluate arc flash incident energy with automated protective device coordination study to significantly reduce costly modifications and mitigation equipment. Learn more
This webinar presents the European/German standard DGUV-I 203-077 for arc flash hazard calculations. This method, just like IEEE 1584-2018, is in use in many European countries. We will compare the German Arc Flash methodology to IEEE 1584-2018 and introduce ETAP tools available for Arc Flash calculations based on this standard. Application examples as well as features & capabilities will be presented. Learn more
Arc Flash analysis software recommended for electric power systems operating at 15 kV and above in compliance with OSHA’s requirements for electrical transmission, distribution, industrial and renewable energy systems. Learn more
ETAP DC Arc Flash software calculates the incident energy for different types of direct current applications, including mission critical facilities, electrochemical plants, substation battery banks, photovoltaic plants, nuclear plants, and transportation systems. Learn more
ETAP Arc Flash Calculators provide a powerful graphical tool for rapid assessment of multiples or batches of “what if” scenarios. Creating of Arc Flash warning labels without building one-line diagrams.
Improve safety & minimize equipment damage by validating arc flash mitigation techniques. Learn more
In most cases, SCCAF (Short Circuit Coordination Arc Flash) studies are done by engineering firms, which then submit reports to facility owners. The challenge is that those reports tend to be lengthy (up to 5,000 pages), not engaging, and hard to grasp for facility personnel. ETAP's powerful graphical and presentation tools can help make those reports livelier, informative, and more engaging. This case study will discuss how you can summarize lengthy power studies reports within just a 30-minute interactive meeting, and highlight how the final ETAP model can be used, with its powerful graphical interface and presentation tools, including Data Blocks, Multiple Presentation layers, Sequence of Operations, and Arc flash calculator.
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.
View Resources