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Scientists Identify Chemical Causes of Battery "Capacity Fade"

Researchers at Argonne National Laboratory identified one of the major culprits in capacity fade of high-energy lithium-ion batteries.

Modeling Reveals How Policy Affects the Adoption of Solar Energy Photovoltaics in California

Researchers at the University of California, Riverside, inspired by efforts to promote green energy, are exploring the factors driving commercial customers in Southern California, both large and small, to purchase and install solar photovoltaic (PV) systems. As the group reports this week in the Journal of Renewable and Sustainable Energy, they built a model for commercial solar PV adoption to quantify the impact of government incentives and solar PV costs.

Machine Learning Dramatically Streamlines Search for More Efficient Chemical Reactions

A catalytic reaction may follow thousands of possible paths, and it can take years to identify which one it actually takes so scientists can tweak it and make it more efficient. Now researchers at the Department of Energy's SLAC National Accelerator Laboratory and Stanford University have taken a big step toward cutting through this thicket of possibilities.

Freezing Lithium Batteries May Make Them Safer and Bendable

Columbia Engineering Professor Yuan Yang has developed a new method that could lead to lithium batteries that are safer, have longer battery life, and are bendable, providing new possibilities such as flexible smartphones. His new technique uses ice-templating to control the structure of the solid electrolyte for lithium batteries that are used in portable electronics, electric vehicles, and grid-level energy storage. The study is published online April 24 in Nano Letters.

New Study Reveals the Mystery Behind the Formation of Hollowed Nanoparticles During Metal Oxidation

In a newly published <i>Science</i> paper, Argonne and Temple University researchers reveal new knowledge about the behavior of metal nanoparticles when they undergo oxidation, by integrating X-ray imaging and computer modeling and simulation. This knowledge adds to our understanding of fundamental processes like oxidation and corrosion.

Rare Supernova Discovery Ushers in New Era for Cosmology

With help from a supernova-hunting pipeline based at NERSC, astronomers captured multiple images of a gravitationally lensed Type 1a supernova. This is currently the only one, but if astronomers can find more they may be able to measure Universal expansion within four percent accuracy. Luckily, Berkeley Lab researchers do have a method for finding more.

Making Batteries From Waste Glass Bottles

Researchers at the University of California, Riverside's Bourns College of Engineering have used waste glass bottles and a low-cost chemical process to create nanosilicon anodes for high-performance lithium-ion batteries. The batteries will extend the range of electric vehicles and plug-in hybrid electric vehicles, and provide more power with fewer charges to personal electronics like cell phones and laptops.

Changing the Game

High performance computing researcher Shuaiwen Leon Song asked if hardware called 3D stacked memory could do something it was never designed to do--help render 3D graphics.

A Scientific Advance for Cool Clothing: Temperature-Wise, That Is

Stanford University researchers, with the aid of the Comet supercomputer at the San Diego Supercomputer at UC San Diego, have engineered a low-cost plastic material that could become the basis for clothing that cools the wearer, reducing the need for energy-consuming air conditioning.

Adjusting Solar Panel Angles a Few Times a Year Makes Them More Efficient

With Earth Day approaching, new research from Binghamton University-State of New York could help U.S. residents save more energy, regardless of location, if they adjust the angles of solar panels four to five times a year.


OU Engineering Professor Receives National Science Foundation Early CAREER Award

A University of Oklahoma Gallogly College of Engineering professor, Steven P. Crossley, is the recipient of a five-year, National Science Foundation Early CAREER Award in the amount of $548,829 for research that can be used to understand catalysts that are important for a broad range of chemical reactions ranging from the production of renewable fuels and chemicals for natural gas processing. The research will be integrated with educational and outreach programs intended for American Indian students, emphasizing the importance of sustainable energy.

3 Small Energy Firms to Collaborate with PNNL

Pacific Northwest National Laboratory is collaborating with three small businesses to address technical challenges concerning hydrogen for fuel cell cars, bio-coal and nanomaterial manufacturing.

ORNL to Collaborate with Five Small Businesses to Advance Energy Tech

Five small companies have been selected to partner with the Department of Energy's Oak Ridge National Laboratory to move technologies in commercial refrigeration systems, water power generation, bioenergy and battery manufacturing closer to the marketplace.

U.S. Department of Energy's INCITE Program Seeks Advanced Computational Research Proposals for 2018

The Department of Energy's INCITE program will be accepting proposals for high-impact, computationally intensive research campaigns in a broad array of science, engineering, and computer science domains.

New Berkeley Lab Project Turns Waste Heat to Electricity

A new Berkeley Lab project seeks to efficiently capture waste heat and convert it to electricity, potentially saving California up to $385 million per year. With a $2-million grant from the California Energy Commission, Berkeley Lab scientists will work with Alphabet Energy to create a cost-effective thermoelectric waste heat recovery system.

New SLAC Theory Institute Aims to Speed Research on Exotic Materials at Light Sources

A new institute at the Department of Energy's SLAC National Accelerator Laboratory is using the power of theory to search for new types of materials that could revolutionize society - by making it possible, for instance, to transmit electricity over power lines with no loss.

Lenvio Inc. Exclusively Licenses ORNL Malware Behavior Detection Technology

Virginia-based Lenvio Inc. has exclusively licensed a cyber security technology from the Department of Energy's Oak Ridge National Laboratory that can quickly detect malicious behavior in software not previously identified as a threat.

Argonne Scientist and Nobel Laureate Alexei Abrikosov Dies at 88

Alexei Abrikosov, an acclaimed physicist at the U.S. Department of Energy's Argonne National Laboratory who received the 2003 Nobel Prize in Physics for his work on superconducting materials, died Wednesday, March 29. He was 88.

Jefferson Lab Accomplishes Critical Milestones Toward Completion of 12 GeV Upgrade

The Continuous Electron Beam Accelerator Facility (CEBAF) at the U.S. Department of Energy's Thomas Jefferson National Accelerator Facility has achieved two major commissioning milestones and is now entering the final stretch of work to conclude its first major upgrade. Recently, the CEBAF accelerator delivered electron beams into two of its experimental halls, Halls B and C, at energies not possible before the upgrade for commissioning of the experimental equipment currently in each hall. Data were recorded in each hall, which were then confirmed to be of sufficient quality to allow for particle identification, a primary indicator of good detector operation.

Valerie Taylor Named Argonne National Laboratory's Mathematics and Computer Science Division Director

Computer scientist Valerie Taylor has been appointed as the next director of the Mathematics and Computer Science division at Argonne, effective July 3, 2017.


The Roadmap to Quark Soup

Scientists discover new signposts in the quest to determine how matter from the early universe turned into the world we know today.

Neutrons Play the Lead to Protons in Dance Around "Double-Magic" Nucleus

Electric and magnetic properties of a radioactive atom provide unique insight into the nature of proton and neutron motion.

Ultrafast Imaging Reveals the Electron's New Clothes

Scientists use high-speed electrons to visualize "dress-like" distortions in the atomic lattice. This work reveals the vital role of electron-lattice interactions in manganites. This material could be used in data-storage devices with increased data density and reduced power requirements.

One Small Change Makes Solar Cells More Efficient

For years, scientists have explored using tiny drops of designer materials, called quantum dots, to make better solar cells. Adding small amounts of manganese decreases the ability of quantum dots to absorb light but increases the current produced by an average of 300%.

Electronic "Cyclones" at the Nanoscale

Through highly controlled synthesis, scientists controlled competing atomic forces to let spiral electronic structures form. These polar vortices can serve as a precursor to new phenomena in materials. The materials could be vital for ultra-low energy electronic devices.

In a Flash! A New Way for Making Ceramics

A new process controllably but instantly consolidates ceramic parts, potentially important for manufacturing.

Deciphering Material Properties at the Single-Atom Level

Scientists determine the precise location and identity of all 23,000 atoms in a nanoparticle.

Smallest Transistor Ever

It has long been thought that building nanometer-sized transistors was impossible. Simply put, the physics and atomic structural imperfections couldn't be overcome. However, scientists built fully functional, nanometer-sized transistors.

Creation of Artificial Atoms

For the first time, scientists created a tunable artificial atom in graphene. The results from this research demonstrate a viable, controllable, and reversible technique to confine electrons in graphene.

Developing Tools to Understand Lithium-Ion Battery Instabilities

Scientists develop tools to understand Li-ion battery instabilities, enabling the study of electrodes and solid-electrolyte interphase formation.


Friday April 07, 2017, 11:05 AM

Champions in Science: Profile of Jonathan Kirzner

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Wednesday April 05, 2017, 12:05 PM

High-Schooler Solves College-Level Security Puzzle From Argonne, Sparks Interest in Career

Argonne National Laboratory

Tuesday March 28, 2017, 12:05 PM

Champions in Science: Profile of Jenica Jacobi

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Friday March 24, 2017, 10:40 AM

Great Neck South High School Wins Regional Science Bowl at Brookhaven Lab

Brookhaven National Laboratory

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Middle Schoolers Test Their Knowledge at Science Bowl Competition

Argonne National Laboratory

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Internship Program Helps Foster Development of Future Nuclear Scientists

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More Than 12,000 Explore Jefferson Lab During April 30 Open House

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Shannon Greco: A Self-Described "STEM Education Zealot"

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Meet Robert Palomino: 'Give Everything a Shot!'

Brookhaven National Laboratory

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University of Utah Makes Solar Accessible

University of Utah

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ARRA Grant to Help Fund Seminary Building Green Roof

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UC San Diego Installing 2.8 Megawatt Fuel Cell to Anchor Energy Innovation Park

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Monday November 01, 2010, 12:50 PM

Rensselaer Smart Lighting Engineering Research Center Announces First Deployment of New Technology on Campus

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New Feedback System Could Allow Greater Control Over Fusion Plasma

Article ID: 671531

Released: 2017-03-20 10:35:34

Source Newsroom: Princeton Plasma Physics Laboratory

  • Credit: Eli Parke

    Physicist Imène Goumiri

  • Credit: Eli Parke

    Physicist Imène Goumiri

Like a potter shaping clay as it spins on a wheel, physicists use magnetic fields and powerful particle beams to control and shape the plasma as it twists and turns through a fusion device. Now a physicist has created a new system that will let scientists control the energy and rotation of plasma in real time in a doughnut-shaped machine known as a tokamak.

“When designing fusion machines, it’s becoming more and more important to use control systems and modeling techniques taken from the world of aeronautics engineering,” said Imène Goumiri, the scientist who led the work. “What’s new is that these tools have now been applied to plasma physics problems; that’s what makes this research unique.” Goumiri was a Princeton University doctoral graduate student who conducted research at the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL) and now is a physicist at the University of Wisconsin-Madison.

Goumiri’s system, known as a feedback controller, includes sensors within the tokamak that are linked to a computer algorithm that interprets the data the sensors gather. The algorithm actuates six beams of neutral particles that heat and spin the plasma inside the tokamak and actuates six rectangular magnetic coils situated around the machine’s exterior. “This is the first time these two actuators have been used together to control the plasma rotation profile,” said Steven Sabbagh, a senior research scientist and adjunct professor of applied physics at Columbia University who has collaborated with PPPL for 27 years and was one of the paper’s co-authors.

By controlling rotation, physicists can prevent instabilities from degrading the magnetic field and allowing the plasma to dissipate, shutting down the fusion reactions.

Researchers designed the algorithm for the National Spherical Torus Experiment-Upgrade (NSTX-U), which has an enhanced neutral beam system that affects the plasma rotation by colliding with the plasma’s charged particles and transferring momentum. The system has two emitters with three neutral beam sources each. One emitter targets the core of the plasma while the other targets the edge to exert leverage over the plasma as a whole. A flexible magnet system allows physicists to further control the plasma rotation distribution. In general, the algorithm uses the magnetic coils and the neutral beam emitters in different combinations to change how different regions of the plasma rotate.

The algorithm also balances the effects of the magnets and the neutral beams to make sure the overall plasma doesn’t lurch roughly from one speed to another. The aim is to achieve a particular amount of plasma heat, or stored energy, along with the desired plasma rotation — an innovation that an earlier version of the algorithm lacked.

Goumiri and the team tested the new controller algorithm on a simulated tokamak created by the computer code TRANSP, a PPPL-designed program used in magnetic fusion research around the world. The test showed that the algorithm could successfully modify both the plasma’s rotation profile and stored energy in ways that would increase the plasma’s stability.

In the future, Goumiri hopes to test her controller algorithm on NSTX-U. Once in operation, the lessons physicists learn from using the algorithm could influence the design of future fusion reactors. Such reactors will have more than one algorithm to control plasma rotation, electric current, and the shape of the plasma. Future research will need to focus on how all the controllers operate together and to design a global system that will allow the controllers to operate harmoniously.

This research was published in February 2017 in the online version of Physics of Plasmas and was funded by the DOE’s Office of Science (Fusion Energy Sciences).

PPPL, on Princeton University’s Forrestal Campus in Plainsboro, N.J., is devoted to creating new knowledge about the physics of plasmas — ultra-hot, charged gases — and to developing practical solutions for the creation of fusion energy. The Laboratory is managed by the University for the U.S. Department of Energy’s Office of Science, which is the largest single supporter of basic research in the physical sciences in the United States, and is working to address some of the most pressing challenges of our time. For more information, please visit science.energy.gov.