6.1 Name FOUR components of a motor vehicle that are driven by the crankshaft - NSC Mechanical Technology Automotive - Question 6 - 2022 - Paper 1

Rotating mass refers to the components that rotate within the engine and require energy to keep spinning. This includes parts such as the crankshaft, flywheel, and connecting rods. The design and weight of these components significantly impact the engine's performance and stability.

Reciprocating mass encompasses parts that move back and forth during the internal combustion cycle. This includes pistons, connecting rods, and gudgeon pins. Reducing the reciprocating mass is crucial for improving engine efficiency and responsiveness.

1. The V-engine configuration allows for a more compact design, making it suitable for smaller engine compartments.
2. A V-engine often has a better power-to-weight ratio, resulting in improved performance.

A – Compressor/Compressor housing/casing B – Exhaust gas out/discharge C – Turbine wheel/blades D – Exhaust gas in E – Compressor air out/discharge

At low speeds, the variable nozzle vanes are almost closed, creating a narrow path for exhaust gases to exit. This design increases the velocity of the exhaust gases directed at the turbine blades, causing the turbocharger to spin faster and improve power delivery at low RPM.

1. Roots supercharger
2. Twin-screw supercharger
3. Centrifugal supercharger
4. Eccentric/sliding-vane supercharger

1. Superchargers are generally less effective at increasing engine power at higher RPMs compared to turbochargers.
2. They consume engine power directly (parasitic loss), which can affect overall efficiency.
3. Superchargers typically require more space in the engine bay, while turbochargers can be placed more flexibly relative to the engine.

Twin-turbocharging uses two turbochargers to enhance engine performance by providing boost at different RPM ranges. In contrast, twin-charging combines both a supercharger and a turbocharger, allowing for immediate power delivery at low RPMs while maintaining high power efficiency at higher RPMs.