ECE Professor Gross tackles the "duck curve"

9/20/2016 Rebecca Nash, ECE ILLINOIS

Solar energy production does not align with energy demands. Researchers are trying to solve this issue and find a way to make renewable energy more streamlined.

Written by Rebecca Nash, ECE ILLINOIS

George Gross
George Gross
If the "duck-curve" problem can't be solved, the power sector solar supply and demand will remain out of balance. ECE ILLINOIS Professor George Gross discusses the "duck-curve" problem facing solar energy in an article published by Midwest Energy News. The "duck-curve" refers to an imbalance between solar production and demand--solar production is highest during peak daylight hours, but the demand for energy sources peaks in the early evening. As a result, fossil fuel demand experiences a sharp increase after 6 p.m. as solar energy output plummets. 

"The units that we have and the amount of capacity that have that ramping capability is limited," says Gross. "I can't tell a solar unit to ramp up... [but] I can do that with gas-powered units."

This chart from an NREL report shows how deployment of energy storage can flatten discrepancies in supply and demand on the grid.
This chart from an NREL report shows how deployment of energy storage can flatten discrepancies in supply and demand on the grid.
The power sector must attempt to flatten the peaks and valleys that occur with today's solar energy supply to create a more streamlined energy profile. The energy industry in the past has always produced power when people have wanted it, but now there are utility programs geared toward getting customers to shift their usage to low-cost hours rather than at night. Consequently, companies are starting to charge more for usage during high-demand hours.


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This story was published September 20, 2016.