Stanford scientists simulated the local risk of damaging or nuisance-level shaking caused by hydraulic fracturing across the Eagle Ford shale formation in Texas. The results could inform a new approach to managing human-caused earthquakes.
Scientists have documented a process that makes these next-gen batteries lose charge – and eventually some of their capacity for storing energy – even when a device is turned off.
Stanford University experts are cautiously optimistic that the Biden administration can change the U.S. trajectory on nuclear waste, and they offer their thoughts on how it can be done.
Using the latest climate and energy models, Mark Jacobson shows that wind energy production increases during the coldest spells when heat demand is highest and can help prevent cold weather–related blackouts.
A decade after a powerful earthquake and tsunami set off the Fukushima Daiichi nuclear meltdown in Japan, Stanford experts discuss revelations about radiation from the disaster, advances in earthquake science related to the event and how its devastating impact has influenced strategies for tsunami defense and local warning systems.
India will need to make the switch from coal to renewable energy to meet its ambitious decarbonization goals. Batteries could be key to meeting these targets and represent an opportunity to develop the country’s battery manufacturing industry.
Stanford’s Dan Reicher discusses a new agreement addressing the role of U.S. hydropower in fighting climate change and the need to restore and sustain America’s rivers.
The doubling of SESI’s chilled water capacity will help minimize the risks of energy curtailments at Stanford campus buildings and hospitals during heat waves.
A new fault simulator maps out how interactions between pressure, friction and fluids rising through a fault zone can lead to slow-motion quakes and seismic swarms.
