Diagram of a Nuclear Power Reactor (NEET Physics)

Draw a diagram of nuclear power reactor and label the parts

Hint: A nuclear reactor is designed to regulate the process of nuclear fission, where a controlled chain reaction generates heat. This heat is ultimately transformed into electricity.

Explanation:

In a nuclear reactor, several key components work together to convert nuclear energy into electricity. The main parts include:

• Concrete Shielding: The entire reactor is encased in a concrete chamber, which provides shielding from radiation and protection.
• Steel Vessel: Inside the concrete chamber lies a steel vessel, where the nuclear fission reaction actually occurs.
• Fuel Rods: These rods, typically containing materials like uranium-235, plutonium, or thorium, act as the fuel source for the nuclear reaction.
• Control Rods: Placed between the fuel rods, control rods are generally made of cadmium and are used to absorb excess neutrons, helping to control or stop the chain reaction as needed.
• Heat Exchanger and Coolant: As the nuclear reaction generates a substantial amount of heat, a pump circulates this heat to a heat exchange, often using a liquid sodium coolant. The heat exchange transfers the heat, generating high-pressure steam.
• Turbine: The high-pressure steam from the heat exchange drives a turbine. As the steam turns the turbine, mechanical energy is produced.
• Generator: The turbine is coupled to a generator, which converts the turbine’s mechanical energy into electricity.
• Condenser: After passing through the turbine, the steam is directed into a condenser, which cools the steam back into water for reuse in the reactor process. A pump then recirculates this water back into the heat exchanger.

Important Points:

• Fuel: The source material for fission reactions, such as uranium-235.
• Moderator: Used to slow down fast neutrons, increasing the likelihood of further fission reactions.
• Control Rods: Control the rate of reaction by absorbing neutrons.
• Coolant: Absorbs and transfers heat from the reactor to the heat exchanger.
• Turbine: Converts the thermal energy of steam into mechanical energy.
• Generator: Produces electricity by transforming mechanical energy from the turbine.

This setup allows for the efficient and controlled conversion of nuclear energy into electrical power in a nuclear power plant.