Energy
Watch the U.S. Electricity Grid Evolve Before Your Eyes
In a previous post, we looked at the evolution of America’s energy supply, showing how the country’s energy mix has changed from 1776 until today. There were many changes in technology and society over this extended time period, and the changes are quite eye-opening. Wood dominated until steam engine technology developed, and coal took over. Then electricity was discovered, and that gave rise to generating power in all kinds of ways: nuclear, hydro, gas, wind, solar, and more.
While the magnitude of such changes is obvious over centuries, there is even a surprising number of developments just in recent decades.
The below animated .gif, which starts with data from 1990, displays the evolution of how electricity is generated in every U.S. state up until 2014.
In this stretch of just 24 years, the way we generate electricity has evolved dramatically:
Why is coal declining? The surge in the use of natural gas and renewables.
Natural gas power now generates 30% of the U.S. electricity, and renewable sources such as solar and wind have grown significantly in the last decade.
In 2005, there were zero states that generated more than 10% of their electricity from renewables. Today, that number is up to 11 states.
Original graphics by: Synapse Energy, RenewEconomy
Energy
Mapped: The Age of Energy Projects in Interconnection Queues, by State
This map shows how many energy projects are in interconnection queues by state and how long these projects have been queued up, on average.
Age of Energy Projects in Interconnection Queues, by State
This was originally posted on our Voronoi app. Download the app for free on iOS or Android and discover incredible data-driven charts from a variety of trusted sources.
By the end of 2023, more than 11,000 energy projects were in interconnection queues in the United States, waiting for a green-light from regional grid operators to proceed with construction.
This map, created in partnership with the National Public Utilities Council, maps out the average age of active energy projects in interconnection queues by state, using data from Berkeley Lab.
Interconnection Queues, Explained
Interconnection queues are lists of energy projects that have made interconnection requests to their regional grid operators. Once submitted, these requests formally initiate the impact study process that each project goes through before grid connection, forming waiting lists for approval known as interconnection queues.
In recent years, both the number and generation capacity of queued projects have surged in the United States, along with the length of time spent in queue.
According to Berkeley Lab, the amount of generation capacity entering queues each year has risen by more than 550% from 2015 to 2023, with average queue duration rising from 3 years to 5 years the same period.
As a result of the growing backlog, a large proportion of projects ultimately withdraw from queues, leading to only 19% of applications reaching commercial operations.
The Backlog: Number of Projects and Average Wait Times
Of the 11,000 active projects in U.S. queues at the end of 2023, Texas, California, and Virginia had the most in queue; 1,208, 947, and 743, respectively.
When looking at the average ages of these projects, all three states hovered around the national average of 34 months (2.83 years), with Texas sporting 28 months, California 33, and Virginia 34.
Vermont, Minnesota, Wisconsin, and Florida, on the other hand, had the highest average queue durations; 54, 49, 47, and 46 months, respectively.
Average Queue Duration by Project Type
At the end of 2023, more than 95% of the generation capacity in active interconnection queues was for emission-free resources. The table below provides a breakdown.
Project Type | Average Queue Duration (As of 12/31/2023) | Number of Projects in Queue |
---|---|---|
Wind | 40 months | 841 |
Solar | 34 months | 4,506 |
Wind+Battery | 34 months | 76 |
Solar+Battery | 27 months | 2,377 |
Battery | 24 months | 2,818 |
Wind projects had the highest wait times at the end of 2023 with an average age of 40 months (3.33 years). Solar projects, on the other hand, made up more than 40% of projects in queue.
Overall, reducing the time that these renewable energy projects spend in queues can accelerate the transition to a low-carbon energy future.
According to the U.S. Department of Energy, enhancing data transparency, streamlining approval processes, promoting economic efficiency, and maintaining a reliable grid are some of the ways this growing backlog can be mitigated.
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