UK Has Entered The Race to Achieve Clean Energy Through Nuclear Fusion

source: www.iter.org/sci/PlasmaHeating We’ve all seen the Starkiller Base in Star Wars: The Force Awakens along with the Death Star i...

source: www.iter.org/sci/PlasmaHeating

We’ve all seen the Starkiller Base in Star Wars: The Force Awakens along with the Death Star in A New Hope. What these weapons do is that they apparently suck the energy of the stars and transform themselves into deadly weapons. Bloody Amazing! But is it possible to actually do that?

Turns out that we can’t actually suck the energy from stars and create weapons of mass destruction. Another question arises is whether or not we can use a star directly as a plant to create energy (since it has enough energy to destroy a Hosnian system consisting of 5 planets). Well turns out we can’t do that either (yet) but studying our own star the Sun we have come to know of its immense energy.

The Sun like any other star operates itself through a nuclear fusion reaction. In a fusion reaction, smaller atomic nuclei are fused together into larger nuclei and in turn releasing tremendous amounts of clean energy. The pros of fusion nuclear reactors as compared to nuclear fission reactors is that nuclear fusion produces less radioactivity, in a lot safer and requires ample fuel supplies.

Last week The UK’s newest fusion reactor, the ST40 was switched on. In a surprisingly small period of time the ST40 was able to achieve ‘first plasma’ within its core.

The ST40 is a tokamak reactor which uses extremely powerful magnetic fields to confine plasma in the shape of a torus.

The aim for ST40 is to heat the plasma up to 100 million degrees Celsius by 2018 (seven times hotter than the center of the sun) thus achieving the fusion threshold at which the hydrogen atoms will begin to fuse to form helium and in the process releasing substantial amount of clean energy.

David Kingham, the CEO of Tokamak Energy said, "Today is an important day for fusion energy development in the UK, and the world".

"We are unveiling the first world-class controlled fusion device to have been designed, built and operated by a private venture. The ST40 is a machine that will show fusion temperatures - 100 million degrees - are possible in compact, cost-effective reactors. This will allow fusion power to be achieved in years, not decades."

Although using nuclear fusion as an energy source is quite efficient and powerful achieving nuclear fusion reactions is not a piece of cake.

Developments are still taking place around the globe in an effort to employ fusion as an energy source. In Germany, a new type of reactor namely Wendelstein 7-X stellerator has been able to successfully control plasma. Also, scientists at MIT in October were able to break the record for plasma pressure. South Korean researchers were the first ones to sustain high performance plasma of up to 300 million degrees Celsius for 70 seconds.

By 2018 the team behind ST40 hopes to attain a fusion threshold of 100 million degrees Celsius and eventually providing clean fusion power to the UK grid by 2030.