Sentences with phrase «advanced nuclear systems»

The ability for nuclear + DAC to provide competitively - priced, carbon - negative energy could help convince nuclear power's skeptics to support further investigation into developing safe and environmentally - friendly advanced nuclear systems.

She received her PhD in 2011 from MIT in Engineering Systems, focusing on advanced technologies for nuclear waste recycling, and she holds dual masters degrees from MIT in nuclear engineering and technology policy.

The Massachusetts Institute of Technology Center for Advanced Nuclear Energy Systems (CANES) conducts research into novel nuclear fission fuels and technoNuclear Energy Systems (CANES) conducts research into novel nuclear fission fuels and technonuclear fission fuels and technologies.

And just last year the Massachusetts Institute of Technology (MIT), home of the nation's first and best graduate nuclear engineering program, started a brand - new research center, the Center for Advanced Nuclear Energy Systems (nuclear engineering program, started a brand - new research center, the Center for Advanced Nuclear Energy Systems (Nuclear Energy Systems (CANES).

Scientists are taking medical imaging research and drug discovery to a new level by developing a molecular imaging system that combines several advanced technologies for all - in - one imaging of both tissue models and live subjects, say presenters at the 2015 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging (SNMMI).

[W] ith the recent advances in computational material design and microtesting, [it] will enable us and our partners to develop materials for safer, cheaper and more sustainable nuclear systems.»

The research team consisting of researchers at NIMS, RIKEN, Kobe Steel and JEOL RESONANCE (a consolidated subsidiary company of JEOL) successfully developed the NMR (nuclear magnetic resonance) system equipped with world's highest magnetic field, 1,020 MHz, during engagement in the JST - SENTAN program «Development of Systems and Technology for Advanced Measurement and Analysis.»

However, slow advances in reactor designs, compared to far more rapid advances in renewable energy and energy storage, mean that low - carbon energy systems may end up competing head to head with nuclear.

The system, to be called Sierra, will serve the National Nuclear Security Administration's (NNSA) Advanced Simulation and Computing (ASC) program.

And, «The role of a first generation NTP in the development of advanced nuclear propulsion systems could be analogous to the role of the DC - 3 in the development of advanced aviation.

As the principal associate director, Wisoff will continue to be responsible for ensuring the safe operation of NIF as a world - class user facility in support of the National Nuclear Security Administration's (NNSA) Stockpile Stewardship mission; partnering with Laboratory capabilities to establish leadership in Stockpile Stewardship science associated with inertial confinement fusion and high energy density physics; overseeing the development of advanced laser systems, related optical and target systems, control systems and systems engineering capability for research, commercial and government agencies; and maintaining close partnerships with the Department of Energy / NNSA, the Defense Advanced Research Projects Agency, the Defense Threat Reduction Agency, Missile Defense Agency, Department of Homeland Security, academia and private iadvanced laser systems, related optical and target systems, control systems and systems engineering capability for research, commercial and government agencies; and maintaining close partnerships with the Department of Energy / NNSA, the Defense Advanced Research Projects Agency, the Defense Threat Reduction Agency, Missile Defense Agency, Department of Homeland Security, academia and private iAdvanced Research Projects Agency, the Defense Threat Reduction Agency, Missile Defense Agency, Department of Homeland Security, academia and private industry.

There is wide agreement among scientists that inadequate funds are going to basic research in such fields as capturing carbon dioxide from smokestacks or the atmosphere, advancing photovoltaic cells and other solar power systems, finding ways to store large amounts of electricity from intermittent sources like wind or the sun, and making nuclear power more secure.

S12 Management of radioactive wastes, and non-radioactive wastes from nuclear facilities S13 Hydro energy S14 Solar energy S15 Geothermal energy S16 Tidal and wave power S17 Wind energy INIS Training Seminar 14 - 16 Novemner 20118 IAEA INIS / ETDE SUBJECT CATEGORIES S25 Energy storage S29 Energy planning, policy and economy S30 Direct energy conversion S32 Energy conservation, consumption, and utilization S33 Advanced propulsion systems S36 Materials science S37 Inorganic, organic /

For example, Dr. Gattie states: «These are regions where advanced energy systems such as nuclear, high efficiency combined - cycle natural gas plants, CCS, and renewable energy can be implemented to meet complex and emerging economic and environmental needs and where carbon reduction can have the greatest climate impact (Gattie 2016b).»

These are regions where advanced energy systems such as nuclear, high efficiency combined - cycle natural gas plants, CCS, and renewable energy can be implemented to meet complex and emerging economic and environmental needs and where carbon reduction can have the greatest climate impact (Gattie 2016b).

That assumes, of course, that you have a readily - available, non fossil - fuel - based source of high heat available — i.e., that you have an advanced high - temperature nuclear reactor or an adapted solar energy system at hand.»

The limitations this system placed on advancing nuclear power are well documented.

``... research on the next generation of nuclear energy systems that can be made available to the market by 2030 or earlier, and that can offer significant advances toward these challenging goals; in particular, six candidate reactor system designs have been identified.

These future nuclear power systems will require advances in materials, reactor physics, as well as thermal - hydraulics to realize their full potential.