The Cheapest Way to Supercharge America's Power Grid
upstart writes:
US electricity consumption is rising faster than it has in decades, thanks in part to the boom in data center development, the resurgence in manufacturing, and the increasing popularity of electric vehicles.
Accommodating that growth will require building wind turbines, solar farms, and other power plants faster than we ever have before-and expanding the network of wires needed to connect those facilities to the grid.
But one major problem is that it's expensive and slow to secure permits for new transmission lines and build them across the country. This challenge has created one of the biggest obstacles to getting more electricity generation online, reducing investment in new power plants and stranding others in years-long "interconnection queues" while they wait to join the grid.
Fortunately, there are some shortcuts that could expand the capacity of the existing system without requiring completely new infrastructure: a suite of hardware and software tools known as advanced transmission technologies (ATTs), which can increase both the capacity and the efficiency of the power sector.
ATTs have the potential to radically reduce timelines for grid upgrades, avoid tricky permitting issues, and yield billions in annual savings for US consumers. They could help us quickly bring online a significant portion of the nearly 2,600 gigawatts of backlogged generation and storage projects awaiting pathways to connect to the electric grid.
The opportunity to leverage advanced transmission technologies to update the way we deliver and consume electricity in America is as close to a $20 bill sitting on the sidewalk as policymakers may ever encounter. Promoting the development and use of these technologies should be a top priority for politicians in Washington, DC, as well as electricity market regulators around the country.
[...] ATTs generally fall into four categories: dynamic line ratings, which combine local weather forecasts and measurements on or near the transmission line to safely increase their capacity when conditions allow; high-performance conductors, which are advanced wires that use carbon fiber, composite cores, or superconducting materials to carry more electricity than traditional steel-core conductors; topology optimization, which uses software to model fluctuating conditions across the grid and identify the most efficient routes to distribute electricity from moment to moment; and advanced power flow control devices, which redistribute electricity to lines with available capacity.
[...] So why are we not seeing an explosion in ATT investment and deployment in the US? Because despite their potential to unlock 21st-century technology, the 20th-century structure of the nation's electricity markets discourages adoption of these solutions.
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