Nuclear Reactors (Edexcel IGCSE Physics)
Revision Note
Nuclear chain reactions
Only one extra neutron is required to induce fission in a uranium-235 nucleus
During the fission, it produces two or three neutrons which move away at high speed
Each of these new neutrons can start another fission reaction, which again emits further neutrons
This process can start a chain reaction
A chain reaction occurs when
A neutron emitted from the splitting of a nucleus causes further nuclei to split and the neutrons emitted from these cause further fission reactions
Controlling chain reactions is an important part of the fission process in nuclear reactors
For a chain reaction to be maintained, there must be a minimum amount of fissile material called the critical mass
If the mass of fissile material exceeds the critical mass, the rate of reaction accelerates
This can cause a huge and uncontrolled release of energy, i.e. a nuclear explosion
The neutrons released by each fission reaction can go on to create further fissions, like a chain that is linked several times – from each chain comes two more
Worked Example
The diagram shows the nuclear fission process for an atom of uranium-235.
Complete the diagram to show how the fission process starts a chain reaction.
Answer:
Step 1: Draw the neutrons to show that they hit other U-235 nuclei
It is the neutrons hitting the uranium-235 nuclei which causes the fission reactions
The daughter nuclei do not need to be shown, only the neutrons and uranium-235 nuclei
Step 2: Draw the splitting of the U-235 nuclei to show they produce two or more neutrons
The number of neutrons increases with each fission reaction
Each reaction requires one neutron but releases two
More reactions happen as the number of neutrons increases
Examiner Tips and Tricks
You need to be able to draw and interpret different diagrams of nuclear fission and chain reactions. Generally, things move to the right as time goes on in these diagrams, but it is important to read all the information carefully on questions like this.
If you have to draw a diagram in an exam remember that the clarity of the information is important, not how pretty it looks!
Control rods & moderators
In a nuclear reactor, a chain reaction is required to keep the reactor running
When the reactor is producing energy at the required rate, two factors must be controlled:
The number of free neutrons in the reactor
The energy of the free neutrons
The main components of a nuclear reactor are:
control rods
a moderator
Nuclear reactor diagram
The overall purpose of the reactor is to control chain reactions and collect the heat energy produced from nuclear reactions to generate electricity
Control rods
Purpose of control rods: To absorb neutrons
Control rods are made of a material which absorbs neutrons without becoming dangerously unstable themselves
The number of neutrons absorbed is controlled by varying the depth of the control rods in the reactor core
Lowering the rods further decreases the rate of fission, as more neutrons are absorbed
Raising the rods increases the rate of fission, as fewer neutrons are absorbed
This is adjusted automatically so that exactly one fission neutron produced by each fission event goes on to cause another fission
In the event the nuclear reactor needs to shut down, the control rods can be lowered all the way so no reactions can take place
Moderator
Purpose of a moderator: To slow down neutrons
The moderator is a material that surrounds the fuel rods and control rods inside the reactor core
The fast-moving neutrons produced by the fission reactions slow down by colliding with the molecules of the moderator, causing them to lose some momentum
The neutrons are slowed down so that they are in thermal equilibrium with the moderator
These neutrons are called thermal neutrons
This ensures neutrons can react efficiently with the uranium fuel
Shielding in a nuclear reactor
Purpose of shielding: To absorb hazardous radiation
The entire nuclear reactor is surrounded by shielding materials
The daughter nuclei formed during fission, and the neutrons emitted, are radioactive
The reactor is surrounded by a steel and concrete wall that can be nearly 2 metres thick
This absorbs the emissions from the reactions and ensures that the environment around the reactor is safe for workers
Shielding materials around a nuclear reactor are designed to absorb harmful radiation
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