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Single Line Diagrams

The single line diagram is the blueprint for electrical system analysis. It is the first step in preparing a critical response plan, allowing the engineer and client to become thoroughly familiar with the electrical distribution system layout and design in the facility.

Whether you have a new or existing facility, the single line diagram is the vital roadmap for all future testing, service and maintenance actions. As such, the one-line diagram is like a balance sheet for your facility and provides a snapshot of your facility at a moment in time. It needs to be modified as your facility changes to ensure that your systems are adequately protected.

An effective single line diagram will clearly show how the main components of the electrical system are connected, including redundant equipment and available spares. It shows a correct power distribution path from the incoming power source to each downstream load – including the ratings and sizes of each piece of electrical equipment, their circuit conductors, and their protective devices.

In many process facilities, loads are continually added or removed in small increments. The net effect is not always seen until some part of the system becomes overloaded or exhibits other problems. Many times circuits are added without appropriate modifications of the standard settings on the associated upstream circuit breakers. Regardless of which protective devices you use, they must be coordinated with regard to their time/current curves and with each other. The single line diagram provides the roadmap to enable proper design of equipment, redundancy, and protection.
NFPA-70E requirements mandate accurate, up-to-date single line diagrams.

To meet these needs, Arc Flash Advisors can conduct a comprehensive site survey to develop one-line diagrams for your facility or to update existing diagrams.  Including: Data Collection

•Verify process is in place that ensures the as-built drawings are maintained in a current condition
•Confirm loads connected to emergency / standby feeders
•Inventory of equipment
•Evaluate design redundancy of critical systems (N, N+1, N+2...) and whether all critical equipment can be maintained without a shutdown
•Verify existence of as-built drawings and that they are adequately available
•Verify potential single points of failure
•Report that outlines the findings by site along with recommended actions
•Update customer-provided one-line drawings down to the 480V Distribution Switchboards
•Provide a copy of one-line electrical diagram in AutoCAD format
•Post as-built drawings at each facility

An up-to-date single line diagram is vital for a variety of service activities including:
•Short circuit calculations
•Coordination studies
•Load flow studies
•Safety evaluation studies
•All other engineering studies
•Electrical safety procedures
•Efficient maintenance

Features & Benefits
•Helps identify fault locations and simplifies troubleshooting
•Ensure safety of personnel
•Stay compliant with NFPA 70E and CSA Z462 requirements
•Ensure safe, reliable operation of facility

Scope of a single line diagram
Single line diagram information normally includes:

•Incoming lines (voltage and size —capacity and rating)
•Incoming main fuses, potheads, cut-outs, switches and main and tie breakers
•Power transformers (rating, winding connection and grounding means)
•Feeder breakers and fused switches Relays (function, use and type)
•Current/potential transformers (size, type and ratio)
•Control transformers
•All main cable and wire runs with their associated isolating switches and potheads (size and length of run)
•All substations, including integral relays and main panels and the exact nature of the load in each feeder and on each substation
•Critical equipment voltage and size (UPS, battery, generator, power distribution, transfer switch, computer room air conditioning)