Engineering

Power System Study

We provide computer generated studies that will determine protective relay settings to selectively coordinate the tripping of equipment, minimize damage for faults and protect personnel from the effects of arcing faults. A comprehensive report contains our professional recommendations for device settings along with a copy of all graphs involved.

Short Circuit Analysis

A short circuit analysis evaluates the potential maximum short circuit amperes that may arise during a fault condition. A short circuit is an accidental electrical contact between electrical conductors and/or electrical conductors and ground. The most common types of faults are three-phase, single line to ground, line to line, and line to line to ground. A short circuit analysis is important for evaluating withstand (bracing) ratings of electrical components that are being utilized throughout the system. It reveals if any inadequate components have been implemented or proposed that could create a potentially hazardous condition. Second, the short circuit analysis is vital for both the protective device coordination and the Arc Flash analyses.

NEC 110.9 requires equipment to have a rating sufficient for interrupting the maximum available fault current present at the line side terminals of the equipment. NFPA 70E Article 210 also requires electrical equipment to have appropriate ratings to withstand or interrupt the available fault current. Where the calculated available fault currents exceed the ratings of the equipment, action is required to possibly upgrade or replace the affected equipment for compliance with the NEC, NFPA 70E, and OSHA regulations. A risk of equipment damage, property damage, and personal injury exists when equipment has either inadequate withstands ratings or contains overcurrent protective devices (OCPDs) with inadequate interrupting ratings. Equipment with inadequate ratings in this category can suffer damage which may include bent busbars, melted contactors, ruptured enclosures or OCPDs may not be able to interrupt faults (three –phase bolted or arcing) properly.

Protective Device Coordination Analysis

A protective device coordination analysis determines the stability of the electrical system and is critical for performing an Arc Flash analysis. The objective of the protective device coordination analysis is to keep the power system uninterrupted by isolating only the components that undergo a fault, while maintaining as much as possible of the system in operation. This helps minimize unnecessary outages and avoids costly down time.

Selecting and setting the overcurrent devices is a procedure where the time-current characteristic curves of the various devices in series are compared with one another on a log-log graph. This procedure should take into account boundaries defined by load currents, short circuit currents, and ANSI and NEC requirements. Coordination usually will be obtained when log-log plots of time-current characteristics show sufficient clear space (discrimination time) or no overlap between the curves for the protective devices operating in series.

Protective device coordination is the process of determining the “best fit” timing of current interruption when an abnormal electrical condition occurs. In some instances, miscoordination between protective devices can arise. When this occurs, the miscoordination must be evaluated to determine the impact to the system. In some cases, the issue can be resolved by implementing different types and/or different sizes of protective devices.

Arc Flash Hazard Analysis

An Arc Flash Hazard Analysis is required to make appropriate selection of personnel protective equipment (PPE) for all persons who might be exposed to an electrical arc flash. Arc flash protection requirements are promulgated by the National Fire Protection Association (NFPA), Standard No. 70E – “Electrical Safety in the Workplace”, most recently published in 2018. The National Electrical Code, Article 110.16 requires that all electrical equipment that is likely to require examination, adjustment, servicing, or maintenance while energized be field or factory marked, in a clearly visible location, to warn qualified person of the potential electric arc flash hazards. Equipment labels can be provided to indicate these hazards.