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The Optimal Power Flow module solves power system load flow, optimizes system operating conditions, and adjusts control variable settings, while ensuring system constraints are not violated.
Optimal Capacitor Placement allows engineers to strategically place capacitors for voltage support and power factor correction while minimizing installation and long-term operation costs.
With ETAP Harmonic Analysis module, you can identify harmonic problems, reduce nuisance trips, design and test filters, and report distortion limit violations.
Grid Systems module enables engineers to quickly and accurately design and analyze ground protection.
Using full frequency-dependent machine and network models, the Generator Start-Up module analyzes cold-state starting of generators under normal and emergency conditions.
ETAP seamlessly integrates the analysis of power and control circuits within one electrical analysis program. The Control System Diagram (CSD) simulates the sequence-of-operation of control devices such as solenoids, relays, controlled contacts, multi-sequence contacts, and actuators including inrush conditions.
Cable Pulling Analysis accounts for multiple cables of different sizes and allows complex 3D pulling path geometry.
ETAP and industry experts from the ETAP NUUG, successfully enhanced the ETAP Unbalanced Load Flow module to be able to model and analyze the effects of both single and double open-phase faults.
ETAP has been used as backbone Software for all Electrical Studies in Toshiba Plant Systems & services Co. (TPSC) since 2001, hence integration of ETAP to Single Database is of significance and implementation of the interface is on-going. Engineering Tools Setup and Integration Project (ETSIP) structure will be presented where all disciplines are connected to a single database to enable concurrent engineering, reduce lead time and man-hours, and to increase quality of the engineering and design.
This webinar, by analyzing the protection against indirect contact in ac (50/60-Hz) low-voltage power systems by automatic disconnection of supply, seeks to clarify both the terminologies and each type of grounding system adopted in IEC standards, with the intent to create a common reference for practicing engineers in the matter of bonding and earthing of power systems.