Experts Examine Geothermal Energy as Potential Means to Carbon Neutrality
With many considering geothermal energy as Cornell seeks to reach its ambitious goal of carbon neutrality by 2035, several experts weighed in on the feasibility of relying on the energy source at a panel Monday, using Iceland as an example.
Geothermal energy utilizes heat stored within the Earth, such as hot water, gases or rocks located beneath the Earth’s surface. This energy is renewable and environmentally friendly, according to the U.S. Energy Information Administration.
Thorleikur Johannesson, an engineer with over 20 years of experience working with geothermal energy in Iceland, said the energy source is an important resource for the country and is utilized by many of its citizens.
“Ninety percent of all houses in Iceland are entirely heated with geothermal energy,” he said. “All the streets in the center of Reykjavik are heated with geothermal, to get rid of the snow.”
Among other reasons, Johannesson attributes a successful Icelandic geothermal program to high quality low temperature geothermal water, suitable geological formations, large radiators — to squeeze as much heat out of the water before it is reinjected or thrown away. He also pointed out that Iceland’s geothermal engineers have the support of the nation’s politicians.
Prof. Jefferson Tester, chemical and biomolecular engineering, said he believes geothermal energy has real potential as an important renewable energy source in the United States.
“The United States is the largest producer of electricity from geothermal energy in the world,” he said.
Tester added that he hopes the discussion of renewable energy includes geothermal energy — citing its minimal environmental impact and ability to power heat efficiently.
“When you hear about America’s transition to a renewable energy future, [experts and politicians] will talk about providing renewable transportation fuels and they will talk about supplying renewable electricity, but almost never will they talk about how to heat homes, businesses or municipal buildings using renewable resources,” he said.
For geothermal energy to become a contributor to Cornell’s efforts to achieve carbon neutrality, a “different type of technology” will be needed “given the difference between New York State’s resources and Iceland’s,” according to Tester.
“[The administration would need to] invoke engineering methods to emulate the properties of natural geothermal systems found in Iceland,” he said. “This is called an enhanced geothermal system, which would still produce the same temperatures as in Iceland, but would require us to drill deeper into the Earth.”
Kyu-Jung Whang, a member of the Buildings and Properties Committee of the Cornell Board of Trustees, said he is optimistic that using geothermal energy could be cost effective.
“This is an opportunity for Cornell … in fact if [geothermal energy] were to be successful, it could ultimately be the least expensive of the carbon neutral options available for powering our campus, even lower than currently used fossil fuels,” he said.