The following is an op-ed from Syd S. Peng, the Charles E. Lawall chair of mining engineering emeritus at West Virginia University.
Coal will remain critically important as we usher in our energy future and rebuild the nation’s infrastructure.
As the nation’s transition to renewable energy gains speed, with the rapid deployment of wind and solar power and grid-scale batteries, a misguided idea is taking hold.
There’s no longer any need for coal generation and coal mining in the United States.
There are major benefits from electricity produced at coal plants and mining.
Coal will remain critically important as we usher in our energy future and rebuild the nation’s infrastructure. Coal is more reliable and free of the intermittency risks that renewables have. In fact, premature efforts to push coal aside not only threaten severe economic damage in coal states but also jeopardize much of the Biden administration’s domestic agenda.
Think about the extraordinary importance of metallurgical coal to steel production – steel is essential in building infrastructure and undergirding the energy technologies for tomorrow’s electricity grid.
Worldwide, 70% of steel is manufactured with metallurgical coal, known as met coal. In the United States, more than 170 met mines support 11,000 direct jobs – and the mines will be critically important in manufacturing steel, the world’s essential building material.
Steel delivers benefits that are widely valued. Enormous amounts of steel will be required because of the passage of the climate bill – steel for new roads, bridges, port infrastructure and even the hundreds of thousands of electric vehicle chargers that will be installed.
The climate bill is conservatively expected to generate $1 trillion in infrastructure spending, boosting domestic steel demand by an additional 6 million tons annually. While the construction of bridges and pipelines will account for most of the demand, the increasing deployment of wind and solar capacity – and the transmission infrastructure needed to move it on the nation’s grid – will also require a lot of steel.
Consider that just one high-voltage transmission tower needs about 40,000 to 60,000 pounds of steel. Each new megawatt of solar power needs between 35 to 45 tons of steel and each new megawatt of wind power requires 120 to 180 tons of steel, with massive offshore wind turbines needing even more.
As more renewable power is added to the electricity grid, coal plants – which provide 20% of the nation’s power and are the leading source of electricity in 15 states – will play a crucial role in safeguarding energy reliability.
Although renewables are being added with the expectation they’ll be able to increase system-wide generating capacity, they won’t even come close to providing the power needed to ensure a secure and reliable supply of energy.
The nation desperately needs a hefty dose of energy policy pragmatism. A good start would be to place a hold on systemwide coal regulations. The reason? Using wind, solar and natural gas as the primary sources of the nation’s energy supply remains more promising than performance. Without coal, we would not have enough electricity for our homes and businesses.
To underpin grid reliability, coal must be part of a diverse mix of dispatchable fuels capable of providing a bridge to the future until renewables can supply enough power to meet electricity demand.
The importance of coal cannot be overemphasized. It would be a shameful waste of money and put that much more strain on the economy if coal plants and steel mills were forced to close for lack of fuel. The consequences wouldn’t be small. Billions of investment dollars could be gone in an instant. And the economic impact would be huge.
The time to stop talking and start acting responsibly is running short.
Dr. Syd S. Peng is Charles E. Lawall Chair of Mining Engineering emeritus, Department of Mining Engineering, West Virginia University (WVU), Morgantown, W.Va. Dr. Peng received his undergraduate diploma in mining engineering from National Taipei University of Technology (NTUT) in Taiwan., and received his Ph.D. in mining engineering from Stanford University in 1970. He has written several textbooks and published more than 380 conference proceedings and journal papers in the areas of longwall mining, ground control, surface subsidence, respirable dust, modeling and mine seals.