Nuclear energy is energy in the nucleus (core) of an atom. Atoms are tiny particles that make up every object in the universe. There is enormous energy in the bonds that hold atoms together.
Nuclear energy can be used to make electricity. But first the energy must be released. It can be released from atoms in two ways: nuclear fusion and nuclear fission.
Types of nuclear energy
There are two ways to release energy from
- nuclear fusion
- nuclear fission
In nuclear fusion, energy is released when atoms are combined or fused together to form a larger atom. This is how the sun produces energy.
In nuclear fission, atoms are split apart to form smaller atoms, releasing energy. Nuclear power plants use nuclear fission to produce electricity.
Nuclear power is produced by controlled (non-explosive) nuclear reactions. Commercial and utility plants currently use nuclear fission reactions to heat water to produce steam, which is then used to generate electricity.
Nuclear power produces around 11% of the world’s energy needs, and produces huge amounts of energy from small amounts of fuel, without the pollution that you’d get from burning fossil fuels.
Atoms are made up of three major particles: protons, neutrons and electrons. The most common fissionable atom is an isotope (the specific member of the atom’s family) of uranium known as uranium-235 (U-235 or U 235 ), which is the fuel used in most types of nuclear reactors today. Although uranium is quite common, about 100 times more common than silver, U-235 is relatively rare.
During nuclear fission, a small particle called a neutron hits the uranium atom and splits it, releasing a great amount of energy as heat and radiation. More neutrons are also released. These neutrons go on to bombard other uranium atoms, and the process repeats itself over and over again. This is called a chain reaction.
Nuclear plants use the heat given off during fi ssion as fuel. Fission takes place inside the reactor of a nuclear power plant. At the center of the reactor is the core, which contains the uranium fuel.
Electricity generated from nuclear energy
Nuclear power plants generate electricity. Most power plants burn fuel to produce electricity, but not nuclear power plants. Nuclear power stations work in pretty much the same way as fossil fuel-burning stations, except that a “chain reaction” inside a nuclear reactor makes the heat instead. Instead, nuclear plants use the heat given off during fission as fuel. Fission takes place inside the reactor of a nuclear power plant. At the center of the reactor is the core, which contains the uranium fuel.
The fuel most widely used by nuclear power plants for nuclear fission is uranium.
Uranium is non-renewable, though it is a common metal found in rocks around the world. Most nuclear plants use a certain kind of uranium (U-235) as fuel, because its atoms are easily split apart.
The uranium fuel is formed into ceramic pellets. The pellets are about the size of your fingertip, but each one produces the same amount of energy as 567 kilograms of coal.These energy-rich pellets are stacked end-to-end in 12-foot metal fuel rods. A bundle of fuel rods is called a fuel assembly.
Fission generates heat in a reactor just as coal generates heat in a boiler. The heat is used to boil water into steam. The steam turns huge turbine blades. As they turn, they drive generators that make electricity. Afterward, the steam is changed back into water and cooled in a separate structure at the power plant called a cooling tower. The water can be used again and again.
Advantages of nuclear energy
In comparison to burning fossil fuels, nuclear energy is a cleaner way to create electricity.
Disadvantages of nuclear energy
The process of nuclear fission creates radioactive waste. It is very, very dangerous. Radioactive waste is extremely toxic and harmful to humans and the environment. It currently must be stored safely underground. It must be sealed up and buried for many thousands of years to allow the radioactivity to die away. For all that time it must be kept safe from earthquakes, flooding, terrorists and everything else. This is difficult.
Engineers have developed different types of nuclear power plants. Most popular of them are: boiling-water reactors (BWRs), and pressurized-water reactors (PWRs).
BWR – the water heated by the reactor core turns directly into steam in the reactor vessel and is then used to power the turbine-generator.
PWR – the water passing through the reactor core is kept under pressure so that it does not turn to steam at all – it remains liquid.
Steam drives the turbine. It is generated in a separate piece of equipment called a steam generator.
A steam generator is a giant cylinder with thousands of tubes in it through which the hot radioactive water can flow.
Outside the tubes in the steam generator, nonradioactive water (or clean water) boils and eventually turns to steam. The clean water may come from one of several sources: oceans, lakes or rivers. The radioactive water flows back to the reactor core, where it is reheated, only to flow back to the steam generator.
Nuclear reactors are machines that contain and control chain reactions, while releasing heat at a controlled rate. In electric power plants, the reactors supply the heat to turn water into steam, which drives the turbine-generators. The electricity is shipped or distributed through transmission lines to homes, schools, hospitals, factories, office buildings, rail systems and other customers.
Reactor core is composed of the elements
1. Fuel. Nuclear fuel consists of pellets of enriched uranium dioxide encased in 12-foot long pencil-thick metal tubes, called fuel rods. These fuel rods are bundled to form fuel assemblies. A nuclear plant can operate continuously for up to 2 years. To run this long, a reactor must have as many as 100 to 300 fuel assemblies.
2. Control rods. The control rods contain material that regulates the rate of the chain reaction. If they are pulled out of the core, the reaction speeds up. If they are inserted, the reaction slows down.
3. Coolant. A coolant, usually water, is pumped through the reactor to carry away the heat produced by the fissioning of the fuel. This is comparable to the water in the cooling system of a car, which carries away the heat built up in the engine. In a reactor, as much as 330,000 gallons of water flow through the reactor core every minute to carry away the heat.
4. Moderator. A moderator, water, slows down the speed at which atoms travel. This reduction in speed actually increases the opportunity to split, thereby releasing energy.
Nuclear power – Environmental effect
Radioactive wastes are the principal environmental concern for nuclear power. Most nuclear waste is low-level nuclear waste. It is ordinary trash, tools, protective clothing, wiping cloths and disposable items that have been contaminated with small amounts of radioactive dust or particles. These materials are subject to special regulation that govern their storage so they will not come in contact with the outside environment.
The irradiated fuel assemblies are highly radioactive and must be stored in specially designed pools resembling large swimming pools (water cools the fuel and acts as a radiation shield) or in specially designed dry storage containers. Most nuclear fuel is stored under water. A few reactors store their older and less radioactive fuel in dry storage facilities outside using special concrete or steel containers with air cooling.
- Mechanical energy
- Radiant energy