Is nuclear fusion a pipe dream? Scientists celebrated yesterday after producing 10 quadrillion watts of nuclear power in a fraction of a second, a leap towards unlimited energy. Hydrogen is the simplest element in the universe. It is also the most common. It is also responsible for all the heat and light that sustain life on Earth.
Breakthrough in quest for energy 'holy grail'
Hydrogen is the simplest element in the universe. It is also the most common. It is also responsible for all the heat and light that sustain life on Earth.
Is nuclear fusion a pipe dream? Scientists celebrated yesterday after producing 10 quadrillion watts of nuclear power in a fraction of a second, a leap towards unlimited energy.
The key to this remarkable feat is nuclear fusion. Hydrogen has two isotopesAtoms from the same element with the same number of protons and electrons, but with different numbers of neutrons. The result is that various isotopes have different masses., deuterium (which has two neutronsA subatomic particle with no electric charge, found in the nucleus of an atom.) and tritium (which has three). When these are smashed together, they combine to form a new element, heliumA very light gas used in balloons to make them float. Old airships used hydrogen, but it burnt easily. Helium does not burn., with one neutron left over. This neutron is converted into energy, which ultimately warms the Earth.
Scientists have hoped that we can recreate fusion to generate energy on Earth. A major breakthrough has some scientists convinced it might finally be within reach. Researchers at the National Ignition Facility in San Francisco were able to achieve a fusion reaction by training massive lasers on a tiny spot of hydrogen.
The reaction only lasted 100 trillionths of a second. But in this time, it became self-sustaining. This is essential to achieving fusion on a grander scale.
Fusion could revolutionise the world's energy supply. The only kind of nuclear power we have been able to harness is fission, where large atoms are broken apart. Fusion could produce four times as much energy as fission, without producing any dangerous radioactive wasteNuclear fission uses uranium which stays radioactive. Fusion can only take place in the unique conditions of the reactor.. And it could be a source of unlimited energy.
But others are sceptical. The energy output from the reaction the researchers achieved was only 70% of the energy they had put into it. This suggests we are still far from being able to use fusion as an energy source.
Some worry that fusion could be a distraction from the transition to renewable energy. If we believe that fusion is around the corner, we might become complacent about the need to stop burning fossil fuels.
Is nuclear fusion a pipe dream?
Yes. The running joke among scientists is that fusion is always 20 years away. This experiment proves that fusion is possible, but the scientific work needed to unlock nuclear fusion is just the tip of the iceberg: turning it into a viable source of fuel will require unprecedented financial and political investment.
No. Many scientific breakthroughs seem impossible until they happen. In 1895, respected scientist Lord Kelvin claimed that heavier-than-air flight was unthinkable; eight years later, the Wright brothers proved him wrong.Time and again, scientific ingenuity has won out over scepticism.
Keywords
Isotopes - Atoms from the same element with the same number of protons and electrons, but with different numbers of neutrons. The result is that various isotopes have different masses.
Neutrons - A subatomic particle with no electric charge, found in the nucleus of an atom.
Helium - A very light gas used in balloons to make them float. Old airships used hydrogen, but it burnt easily. Helium does not burn.
Radioactive waste - Nuclear fission uses uranium which stays radioactive. Fusion can only take place in the unique conditions of the reactor.
Breakthrough in quest for energy ‘holy grail’
Glossary
Isotopes - Atoms from the same element with the same number of protons and electrons, but with different numbers of neutrons. The result is that various isotopes have different masses.
Neutrons - A subatomic particle with no electric charge, found in the nucleus of an atom.
Helium - A very light gas used in balloons to make them float. Old airships used hydrogen, but it burnt easily. Helium does not burn.
Radioactive waste - Nuclear fission uses uranium which stays radioactive. Fusion can only take place in the unique conditions of the reactor.