Energy
Site news
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Panelists in the Advancing Technology for a Sustainable Planet workshop detailed AI’s energy and regulatory challenges. (Source: Stanford HAI)
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Stanford researchers are working to understand battery degradation, reveal the true toll of their production and disposal, and make next-generation batteries better. (Source: Stanford News)
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A tiny new device allows scientists to directly observe and quantify how rocks change in the presence of acids, enabling more accurate assessments of sites for underground storage of carbon dioxide, hydrogen, and industrial waste.
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Researchers imagined, designed, and tested an elegant lens device that can efficiently gather light from all angles and concentrate it at a fixed output position. (Source: Stanford Engineering)
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Gustavo Cezar wears two colorful hats as an engineer with SLAC’s GISMo lab. (Source: SLAC)
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A new mathematical model has brought together the physics and chemistry of highly promising lithium-metal batteries, providing researchers with plausible, fresh solutions to a problem known to cause degradation and failure.
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Small modular reactors, long touted as the future of nuclear energy, will actually generate more radioactive waste than conventional nuclear power plants, according to research from Stanford and the University of British Columbia.
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Underground disposal of wastewater from fossil fuel production in the nation’s largest oil field is causing long-dormant faults to slip in a way that could damage wells, according to new analyses of satellite and seismicity data.
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More than half of the premature deaths associated with electricity use in most of California and the Northwest occur in other western states that supply electricity to the West Coast.
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Stanford biologist José Dinneny is studying why one plant grows faster in stressful conditions. His results could help scientists engineer food and biofuel crops to survive in harsher environments.
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Integrated reversible power-to-gas systems can also convert hydrogen back to electricity as a backup power source surprisingly economically, new research finds.
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Analysis of data from 140 countries suggests many rich countries could use less energy per capita without compromising health, happiness or prosperity. Countries struggling with energy poverty may be able to maximize well-being with less energy than previously thought.
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Energy expert Inês Azevedo, a lead author of the energy chapter in the United Nations’ new report on climate mitigation, discusses the assessment and changes necessary to keep global warming below 2 degrees Celsius.
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Analysis presents a first-of-its-kind framework to design the most efficient mix of urban buildings along with integrated systems to supply power and water services. The approach could significantly reduce costs and pollution compared to traditional systems. (Source: Stanford Woods Institute for the Environment)
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Using airborne sensors that see methane in the air, Stanford researchers say leaks are more worrisome than thought, but hope lies in the sensing technology itself.
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With a growing fleet of electric vehicles on the road, power grid planners depend on accurate estimates of charging patterns to calculate demand. Researchers have created a new model framework for long-term planning that captures real drivers’ charging patterns and accounts for uncertainty. (Source: Precourt Institute for Energy)
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A cellphone-sized device automatically adjusts a home's power use up or down to save the consumer money and increase the resiliency of the electric grid. (Source: SLAC)
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Using artificial intelligence to analyze vast amounts of data in atomic-scale images, Stanford researchers answered long-standing questions about an emerging type of rechargeable battery posing competition to lithium-ion chemistry. (Source: Precourt Institute for Energy)
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New research shows how AI can identify proposed hydropower plants that are likely to be particularly detrimental to the environment, and reveals the forgone environmental and energy benefits of uncoordinated dam planning in the Amazon basin. (Source: Natural Capital Project)
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The unprecedented plunge in electricity use around the world at the beginning of the global pandemic was tied to shut-down policies and other factors. Surprisingly, the recovery to pre-COVID levels was quite fast and not linked to those same factors.
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Islands of inactive lithium creep like worms to reconnect with their electrodes, restoring a battery’s capacity and lifespan. (Source: SLAC National Accelerator Laboratory)
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Decarbonizing global transportation requires building a huge quantity of batteries so fleets can convert to electric power. This will mean more mining to supply the lightweight metal lithium. So far, most lithium has come from Australia, South America, and China, but eyes are turning to deposits in the United States. (Source: Bill Lane Center for the American West)
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Methane, a powerful greenhouse gas, can be captured and transformed into protein-rich feed for farmed fish – an increasingly important food sector. A new analysis shows how to make the approach more cost-effective than current fish feeds.
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Key ideas and proposals from an agreement between the hydropower industry and environmental community, facilitated through a Stanford Woods Institute for the Environment Uncommon Dialogue, have been included in the $1 trillion infrastructure package adopted by the U.S. Senate. (Source: Stanford Woods Institute for the Environment)
