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.
Engineers at Stanford have used X-ray CT scans, more common in hospital labs, to study how wood catches fire. They’ve now turned that knowledge into a computer simulation to predict where fires will strike and spread.
A new model offers a way to predict the condition of a battery’s internal systems in real-time with far more accuracy than existing tools. In electric cars, the technology could improve driving range estimates and prolong battery life.
Almost all of the world’s energy use involves heat, from making steel to refrigerating food. Deep decarbonization without breakthroughs in thermal science and engineering seems inconceivable. Three leaders in the area highlight five important topics to explore.
The researchers hypothesize outcomes of the pandemic’s unprecedented socioeconomic disruption, and outline research priorities for advancing our understanding of humans’ impact on the environment.
The pandemic has tugged carbon emissions down, temporarily. But levels of the powerful heat-trapping gas methane continue to climb, dragging the world further away from a path that skirts the worst effects of global warming.
New research shows living near oil and gas development in California is a risk factor for preterm birth, the leading cause of infant death in the United States. About 2.1 million Californians live within one mile of an active oil or gas well.
