Sentences with phrase «fusion as the energy source»

During that time, physicists repeatedly touted fusion as the energy source of the future.

Clery gives a detailed and workmanlike history of the worldwide quest to exploit fusion as an energy source.

The Laboratory advances the coupled fields of fusion energy and plasma physics research, and, with collaborators, is developing the scientific understanding and key innovations needed to realize fusion as an energy source for the world.

As much as harnessing new energy sources like nuclear fusion, it is solving this basic storage problem that could revolutionize our faltering energy supply systemAs much as harnessing new energy sources like nuclear fusion, it is solving this basic storage problem that could revolutionize our faltering energy supply systemas harnessing new energy sources like nuclear fusion, it is solving this basic storage problem that could revolutionize our faltering energy supply systems.

Nuclear fusion has long tantalized humanity as a potential energy panacea — a fuel source that could prove to be cheap, inexhaustible, and clean.

With the U.S. under environmental and political stress to provide itself with alternative sources of energy, moving fusion power from the chalkboard to the power grid as quickly as possible was really the only option when the NIF was approved in 1997.

Helion Energy, located in Redmond, Washington, believes they are only a few years away from creating nuclear fusion that can be used as a source for electricity.

In 1931 he gave specific figures about nuclear fusion as a source of energy far superior to nuclear fission.

Some believe that with nuclear fusion unlimited sources of energy will be ours and that we can chemically alter the earth's matter so as to replace exhausted resources with others.

Comprehending and reducing turbulence will facilitate the development of fusion as a safe, clean and abundant source of energy for generating electricity from power plants around the world.

By harnessing energy from the sun — «this handy fusion reactor in the sky,» he called it last night — getting enough renewable energy on the power grid and smoothing out energy generation and use between peak and off - peak hours, the nation and planet can shift away from fossil fuels» dominance as a power source, he told the crowd.

As energy demand grows, even alternative energy sources such as wind, solar and nuclear fusion could begin to affect the climatAs energy demand grows, even alternative energy sources such as wind, solar and nuclear fusion could begin to affect the climatas wind, solar and nuclear fusion could begin to affect the climate.

Concerns about global warming and oil's imminent demise have caused scientists and policy - makers to look for solutions in both the future and the past: to new technologies such as nuclear fusion, multijunction photovoltaics, and fuel cells — and to traditional energy sources such as water power, wind power, and (sustainable) biomass cultivation (coupled with clean and energy - efficient combustion).

«It was unfortunate that cold fusion was initially publicized in 1989 as a new fusion energy source instead of simply as a new scientific curiosity,» says electrochemist Melvin H. Miles.

Despite their military funding, many who work on laser - powered fusion in the US believe that it will prove useful as a source of commercial energy.

«But there is a long path ahead for fusion energy as a power source.»

The Princeton Plasma Physics Laboratory is a world - class fusion energy research laboratory dedicated to developing the scientific and technological knowledge base for fusion energy as a safe, economical and environmentally attractive energy source for the world's long - term energy requirements.

In a world with increasing energy demand nuclear fusion can play a role as it has the potential to be a sustainable and powerful electricity source free of CO2 emissions.

The Princeton Plasma Physics Laboratory, funded by the U.S. Department of Energy and managed by Princeton University, is located at 100 Stellarator Road off Campus Drive on Princeton University's Forrestal Campus in Plainsboro, N.J. PPPL researchers collaborate with researchers around the globe in the field of plasma science, the study of ultra-hot, charged gases, to develop practical solutions for the creation of magnetic fusion energy as an energy source for the Energy and managed by Princeton University, is located at 100 Stellarator Road off Campus Drive on Princeton University's Forrestal Campus in Plainsboro, N.J. PPPL researchers collaborate with researchers around the globe in the field of plasma science, the study of ultra-hot, charged gases, to develop practical solutions for the creation of magnetic fusion energy as an energy source for the energy as an energy source for the energy source for the world.

The path to creating sustainable fusion energy as a clean, abundant and affordable source of electric energy has been filled with «aha moments» that have led to a point in history when the international fusion experiment, ITER, is poised to produce more fusion energy than it uses when it is completed in 15 to 20 years, said Ed Synakowski, associate director of Science for Fusion Energy Sciences at the U.S. Department of Energy energy as a clean, abundant and affordable source of electric energy has been filled with «aha moments» that have led to a point in history when the international fusion experiment, ITER, is poised to produce more fusion energy than it uses when it is completed in 15 to 20 years, said Ed Synakowski, associate director of Science for Fusion Energy Sciences at the U.S. Department of Energy energy has been filled with «aha moments» that have led to a point in history when the international fusion experiment, ITER, is poised to produce more fusion energy than it uses when it is completed in 15 to 20 years, said Ed Synakowski, associate director of Science for Fusion Energy Sciences at the U.S. Department of Energy energy than it uses when it is completed in 15 to 20 years, said Ed Synakowski, associate director of Science for Fusion Energy Sciences at the U.S. Department of Energy Energy Sciences at the U.S. Department of Energy Energy (DOE).

Such plants would use fusion reactions such as those that power the sun to create an unlimited energy source on Earth.

The U.S. Department of Energy's Princeton Plasma Physics Laboratory is dedicated to developing fusion as a clean and abundant source of energy and to advancing the frontiers of plasma scEnergy's Princeton Plasma Physics Laboratory is dedicated to developing fusion as a clean and abundant source of energy and to advancing the frontiers of plasma scenergy and to advancing the frontiers of plasma science.

The tours are aimed at explaining fusion energy and PPPL's role as a national and international leader in developing fusion energy as a clean, safe and affordable source of electric energy.

Delgado - Aparicio's speech focused on his own experiences and PPPL's goal of studying the scientific basis for developing fusion as a source of energy for producing electricity.

After reading yesterday's post on the brewing fight over funding for nuclear fusion research, Robert L. Hirsch, who directed the country's fusion energy program in the 1970s through the Atomic Energy Commission, got in touch to describe how his views of the prospects of harnessing fusion as a practical energy source have evenergy program in the 1970s through the Atomic Energy Commission, got in touch to describe how his views of the prospects of harnessing fusion as a practical energy source have evEnergy Commission, got in touch to describe how his views of the prospects of harnessing fusion as a practical energy source have evenergy source have evolved.

Nuclear fusion is being looked to as a potentially limitless source of clean energy, created by the same core processes inside the sun.

A partnership between MIT and the private sector promises to develop fusion energy as an energy source within the next 15 years.

Thus it makes pragmatic sense to me to focus our attention on a medium term adaption policy, whilst investing heavily in cleaner cheap sources of baseload energy, such as thorium fission and gen4 fission reactors and, in the slightly longer term, nuclear fusion reactors.

Later this century we will probably start to develop sources of abundant energy that may, incidentally, be «carbon neutral» (nuclear fusion, zero - point energy, etc.) Right now, however, most of our wealth comes from commerce and industry that largely depend on energy sources such as oil, coal and gas.

Although no breakthrough has happened in nuclear fusion since it was hailed as the clean energy source of the future in the 1970s, there are reasons to be optimistic now, writes Scott L. Montgomery of the University of Washington.