By Edsel Cook
(NationalSentinel) The U.S. power grid may not be on its last legs, butÂ it is getting there.
Most of the countryâ€™s power transmission and distribution network is old and well past their limit. And when one part finally goes down, many of the others will follow in a disastrous domino effect.
The grid is not able to keep up with the increasing demand for more electricity. The high-voltage transmission lines and substations of the distribution network are not designed to handle the current power load.
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The power plants supplying energy to the grid are also old. Coal plants, hydroelectric power plants, and nuclear power plants are well past their prime by the time they get retired.
TheÂ American Society of Civil EngineersÂ (ASCE) repeatedly stressed the need to invest in the U.S. electric grid.Â But any attempt to replace or update parts of the power grid gets blocked by government regulations that cite environmental concerns and other technical requirements.
The electrical grid experiencesÂ moreÂ blackouts and brownoutsÂ every year.Â It is at the end of its useful life â€“ the repairs itÂ doesÂ get are only delaying its inevitable collapse.
A decentralized system isÂ more resistant to general system failure.Â ItÂ features redundancies that limit the damage caused by a problem. If one part goes down, the rest of the system compensates for the loss.
But the substations and transmission linesÂ of the U.S. electric gridÂ are already laboring at peak capacity. In the case of a failure, the electrical powerÂ gets diverted through these overworked parts.
Whenever equipment exceedsÂ its ratedÂ capacity, it gives off extra heat. The longer it runs past its limit, the hotter it gets.Â Overheated as well as overloaded, the equipment also fails.
EveryÂ new failure forces the power grid to place heavier loads on the remaining functional substations and transmission lines.Â The result of the domino effect is cascading failures.
Researchers ran extensive computer models that simulated the U.S. electrical grid. They found that more than 10 percent of the system are vulnerable to first-level cascading failures.Â Additional levels of failures drastically increase the overall percentage of the grid that goes down.
The modelsÂ showed that areas nearÂ large cities areÂ especially vulnerable to cascading failures. These places draw the largest amount of electricity from the power grid.
A power outage may also cause other kinds of cascading failures. Most modern infrastructure relies on electricity for their function. When a city or region loses power, the effects cascade through the other services in the area.
Ambulances, hospitals, police stations, and other emergency services stockpile around three days worth of fuel for backup generators. Municipal water supplies and sewage services may solely rely on external power. When their facilities run out of power, they may stop providing services.
There are alsoÂ external threats to the power grid. Domestic terrorists could repeat theÂ 2016 Buckskin substation attackÂ on a much larger scale.Â China, Russia, and other nation-states possessÂ cyberwarfare and cyberterrorism capabilitiesÂ â€“ they may hack American power production and distribution facilities.
Or hostiles may choose to cut to the chase and just detonate a nuclear weapon at high altitude.Â The electromagnetic pulse attack willÂ damage or destroy large swathes of the grid.
It is high time that theÂ much-abused U.S. power gridÂ receives modernization. Otherwise, when it goes down for good, it will takeÂ many Americans along with it.
- A version of this story first appeared at NewsTarget.
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