Pacific DC Intertie

The Pacific DC Intertie (PDCI) is a powerline that runs from northern Oregon to Los Angeles. Built in 1970, it carries power generated by dams and wind farms along the Columbia River for consumption in Los Angeles. It was the first long-distance, high-voltage, direct current (HVDC) powerline in the United States. It is 846 miles long and carries 3.8 gigawatts (GW) of power.

PDCI towers in Deschutes County, Oregon
Portion of the PDCI looking south from US Rt 20 in Deschutes County, Oregon
Photo by Ed Sawicki

There are a few things the existance of the PDCI suggests and myths it dispenses with.

  1. When Thomas Edison and the team of Nikola Tesla and George Westinghouse were engaged in their “current wars” in the late 1800s, it was not possible to move DC power over long distances efficiently, so Tesla's invention of AC power was considered far superior. Advances in technology made long-distance transmission of DC power possible about 60 years later.
  2. Long distance DC power transmission makes it possible to connect areas that have different power grids without the problem of synchronizing the frequency of the alternating currents. This is an element of what makes “smart power grids”.
  3. Critics of nuclear power sometimes say that reactors must be located close to population centers, otherwise “too much power is lost in transmission.” That hasn't been true for decades. Reactors and other electrical power sources could be located far from population centers, as the PDCI proves. Besides, modern day reactor designs, such as those based on molten salts, are far safer than early designs; It's not necessary to locate them far from population centers.

Towers

Self-supporting and guyed towers are used. All self-supporting towers are steel structures. Guyed towers are steel for the Southern section and aluminum for the Northern section. In the photo at the top of the page, the steel towers are grey while the aluminum towers are much lighter in color.

Pacific DC Intertie label
Each tower is numbered and identified with a sign. This tower (176-2) is near Christmas Valley, Oregon. Photo by Ed Sawicki

Click this button to see a map of all the PDCI's towers:

Cables

Cross section of ACSR cable

The cables are bare Aluminum Conductor Steel Reinforced (ACSR) with a cross section area of 1171 square millimeters. The photo to the left shows a cross section of ACSR cable. The seven inner wires that appear darker in color are the steel wires that provide tensile strength. Each of the two poles uses two of these cables for a total of four cables.

For a 846-mile long transmission line, there will need to be many splices. Here's a video that shows how these splices are made: PLP Compression Splice for ACSR & ACSS Conductors

Electrical

The PDCI is a direct current transmission line. Two of the conductors (acting together as the negative pole) carry -500 kilovolts with respect to ground. Two other conductors (the positive pole) carry +500 kilovolts. The voltage between the poles is one-million volts (1000 kilovolts).

PDCI voltages between poles
Schematic of power line voltages

Environmental impact

There is an environmental impact with building long-distance transmission lines. Each of the PDCI's towers disturbed an area of about 6,400 square feet when they were constructed. The total disturbed ecosystem for the PDCI is approximately 573 acres. There is little, if any, additional impact on that environment post-construction.

There's the additional impact to air quality caused by construction machinery and vehicles building a 846-mile powerline.

Videos

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High Voltage Line construction

High Voltage Tower Construction

Sources