10.1 State TWO purposes of a supercharger - NSC Mechanical Technology Welding and Metalwork - Question 10 - 2017 - Paper 1

1. Superchargers are commonly used in racing cars to provide the necessary power for high-performance racing.

2. They are also used in four-stroke compression ignition engines in heavy vehicles, such as trucks and buses, to improve their power and efficiency.

A turbocharger operates by utilizing the exhaust gases from an internal combustion engine to drive a turbine that spins an impeller. Here’s a breakdown of its operation:

• Exhaust gases from the engine flow into the turbocharger, where they spin the turbine.
• This rotation of the turbine causes the connected compressor to also rotate, drawing in ambient air.
• The compressor then compresses this air, increasing its pressure before it is fed into the engine’s intake.
• The increased air density allows for more fuel to be injected, leading to enhanced power output.
• The principle relies on the conservation of mass and energy, as the exhaust gas flow drives the turbine which, in turn, forces more air into the combustion chamber.

A steam turbine converts thermal energy from steam into mechanical energy through the following steps:

• High-temperature steam is directed towards the blades of the turbine.
• As the steam expands and moves through the nozzles, it strikes the blades, causing them to rotate.
• The kinetic energy of the steam is converted into rotational motion, which can then be used to drive generators or other machinery.
• The reaction of steam against the blades leads to continuous rotation, allowing for sustained mechanical work.

1. Water turbines

2. Gas turbines

3. Wind turbines