The compression ratio (CR) of a pistonβtype marine engine is the ratio of the total cylinder volume when the piston is at bottom dead centre (BDC) to the remaining volume when the piston is at top dead centre (TDC). A higher CR generally means the engine can extract more mechanical work from each combustion event, improving thermal efficiency.
For a cylindrical bore, the swept (displacement) volume Vs is calculated from the bore diameter and stroke length, while the clearance volume Vc is the residual space at TDC. Combining these gives the classic compressionβratio formula:
In maritime propulsion, selecting an appropriate compression ratio balances power output, fuel consumption, and durability. Overβcompression can lead to excessive cylinder pressures and knock, while underβcompression reduces efficiency, making accurate calculation essential during engine design and maintenance.
What is the formula for calculating engine compression ratio?
How does a higher compression ratio affect engine performance?
What is the difference between swept volume (Vs) and clearance volume (Vc)?
How do I measure the bore diameter and stroke length of my engine?
What is the ideal compression ratio for marine engines?
Can a high compression ratio cause knocking in my engine?
Results are for informational purposes only and do not constitute professional advice.