How We Deliver Electricity

Delivering power safely and efficiently

From the plant to you

High-capacity transmission lines carry electricity long distances, such as from the Boardman Plant in eastern Oregon to the Willamette Valley.

Transformers near the generation facility increase the voltage for more efficient transmission over long distances. These voltages are dangerous, which is why transmission lines are located on high towers.

As it gets closer to where it will be used, electricity is routed through transformers at distribution substations, which lower the voltage for safety in populated areas.

Often the electricity is lowered further via neighborhood transformers before passing into end-users’ service lines. Those voltages typically are 120/240 volts for homes and 480 volts for business and industry.

The health and scalable capacity of Oregon’s transmission system is therefore crucial to powering our future.

Transmission lines operate somewhat like interstate freeways that move large volumes of traffic. The lower-capacity distribution lines operate like streets that crisscross communities and neighborhoods. When freeways get congested, everything slows down.

In a similar way, transmission lines get congested and electricity cannot flow as reliably from the source of generation to your home or business.

How we deliver electricity

Key principles of delivering electricity

Electricity must travel a circuit to keep the electrons flowing. If it’s interrupted, electrons will stop flowing.

When electricity moves:

  • It can’t be easily stored.
    The system must always be able to respond instantaneously to fluctuations in demand. Providing the exact amount of electricity being demanded at any given instant keeps the system from crashing, which can cause blackouts.
  • It seeks the path of least resistance.
    That could be through a tree branch touching a power line or a connected utility system using some of the same lines. Read more about safety around electricity.
  • Disturbances travel quickly.
    The current moves at the speed of light, and a sudden disturbance on the grid can travel just as quickly. Since the country’s transmission system is interconnected, all utilities must cooperate and be ready to react to one another’s actions and disturbances.