In a sprawling complex of laboratories and futuristic gadgets in Golden, Colo., a supercomputer named Peregrine does a quadrillion calculations per second to help scientists figure out how to keep the lights on.
Peregrine was turned on this year by the U.S. Energy Department. It has the world’s largest “petascale” computing capability. It is the size of a Mack truck.
Its job is to figure out how to cope with a risk from something the public generally thinks of as benign — renewable energy.
Energy officials worry a lot these days about the stability of the massive patchwork of wires, substations and algorithms that keeps electricity flowing. They rattle off several scenarios that could lead to a collapse of the power grid — a well-executed cyberattack, a freak storm, sabotage.
But as states, led by California, race to bring more wind, solar and geothermal power online, those and other forms of alternative energy have become a new source of anxiety. The problem is that renewable energy adds unprecedented levels of stress to a grid designed for the previous century.
Green energy is the least predictable kind. Nobody can say for certain when the wind will blow or the sun will shine. A field of solar panels might be cranking out huge amounts of energy one minute and a tiny amount the next if a thick cloud arrives. In many cases, renewable resources exist where transmission lines don’t.
“The grid was not built for renewables,” said Trieu Mai, senior analyst at the National Renewable Energy Laboratory.
The frailty imperils lofty goals for greenhouse gas reductions. Concerned state and federal officials are spending billions of dollars in ratepayer and taxpayer money in an effort to hasten the technological breakthroughs needed for the grid to keep up with the demands of clean energy.
Making a green energy future work will be “one of the greatest technological challenges industrialized societies have undertaken,” a group of scholars at Caltech said in a recent report. The report notes that by 2030, about $1 trillion is expected to be spent nationwide in bringing the grid up to date.
The role of the grid is to keep the supply of power steady and predictable. Engineers carefully calibrate how much juice to feed into the system as everything from porch lights to factory machines are switched on and off. The balancing requires painstaking precision. A momentary overload can crash the system.
California has taken some of the earliest steps to address the problems. The California Public Utilities Commission last month ordered large power companies to invest heavily in efforts to develop storage technologies that could bottle up wind and solar power, allowing the energy to be distributed more evenly over time.
Whether those technologies will ever be economically viable on a large scale is hotly debated. The commission mandate nonetheless requires companies to produce enough storage by 2024 to power about 1 million homes.
“Energy storage has the potential to be a game changer for our electric grid,” Commissioner Mark Ferron said.
Some utility officials warn, however, that the only guarantee is that ratepayers will be spending a lot. The commission’s goals, while laudable, “could cost up to $3 billion with uncertain net benefits for customers,” Southern California Edison declared in a filing.