Stanford scientists have developed a new type of flow battery that involves a liquid metal; it more than doubled the maximum voltage of conventional flow batteries and could lead to affordable storage of renewable power.
Freeman Spogli Institute for International Studies —
Stanford experts agree that the world needs to be less reliant on fossil fuels for energy. Getting there will remake the world’s largest economic sector – energy – into one that is more sustainable, secure and affordable for everyone.
A new wastewater treatment plant under construction in Redwood Shores will be the largest to test Stanford-developed technology that significantly reduces the cost of cleaning water. The key: bacteria that eschew oxygen while producing burnable methane.
Stanford scientists have developed a manganese-hydrogen battery that could fill a missing piece in the nation’s energy puzzle by storing wind and solar energy for when it is needed, lessening the need to burn carbon-emitting fossil fuels.
Students who joined the Sophomore College course Water and Power in the Pacific Northwest: The Columbia River traveled to the Columbia River valley to understand the interplay between water, energy and human populations.
If federal plans move forward, most U.S. coastal waters would be open to offshore oil drilling. Stanford Professors Deborah Sivas and Alexandria Boehm look at related legal and marine issues from the perspective of the California coastline, which has been protected from new drilling since 1969.
The Stanford Strategic Energy Alliance will facilitate research and educational relationships between faculty members and companies with shared scholarly interests. The program will be managed by the Precourt Institute for Energy, co-directed by Sally Benson and Arun Majumdar.
A device that’s turned off doesn’t suck battery life, but it also doesn’t work. Now a low-power system that’s always on the alert can turn devices on when they are needed, saving energy in the networked internet of things.