Aging strength Infrastructure in the US

Aging strength Infrastructure in the US




The US electric grid is a huge, complicate network of independently owned and operated strength plants and transmission lines. Most of the currently obtainable infrastructure was put in place across the 1950s and 60s. Its sheer age is now earning commentary like this, on NPR:

“The U.S. strength grid is often equated to a highway system, one that has been seriously neglected and is now being pushed to its limits with the demands of our growing and changing energy needs. As we see the rise in need for replaceable energy supplies to combat the environmental ramifications of fossil fuels, the grid will continue to be proven outmoded and in need of reinvention.”

The Department of Energy estimates that need for electricity has increased by around 25 % since 1990 while construction of transmission facilities dropped 30%. According to Media Company Red Herring Inc., energy need in the US is likely to surge 32% by 2015.

The grid failure of 2003 that affected the lives of over 50 million people is an oft-quoted example to underline the necessity of modernizing the US strength grid. This is not just to deal with growing need, but also to adjust to the new focus on replaceable energy supplies like wind, solar and hydro strength: which are not easily inter-connectable to the existing grid without meaningful refurbishing. The goal, of course, is to address long term energy security. Opting for replaceable energy and putting in place infrastructure like ‘smart grids’, however, calls for a sizable investment.

A meaningful target to reduce energy lost in the dispensing course of action is the emergence of higher efficiency requirements for strength and dispensing transformers. Currently, transformers are responsible for a sizable amount of the energy lost and it is here that the DOE is introducing rules to increase efficiency. According to the rules published by the DOE, the cost of liquid-immersed dispensing transformers increases by up to 12%, but should decline electrical losses by as much as 23%. It could also raise the cost of medium-voltage, dry-kind transformers by up to 13%, but should decline electrical losses by as much as 26%.

Although much of the energy efficient technology is a little more expensive, private and government-owned utilities have begun to invest in it for the reliability it ensures. Additionally, the initial investment more than pays for itself in the long run, due to the decreased energy lost in the transmission and dispensing system.




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