How Blow-by Affects Engine Performance Combustion events force gases past the piston rings into the crankcase, a phenomenon known as blow-by. This mixture travels through the breather system and into the intake tract, where the oil can coat the intake valves and throttle body.
Oil Catch Can Maintenance Guide: Essential Steps for Peak Performance
Internal Baffling and Filtration High-quality units utilize internal baffling and often include a removable filter to enhance the separation process. This results in a significant reduction in oil residue within the intake system.
If these gases are not managed, they create pressure and mix with oil vapor. Without Catch Can With Catch Can Oil buildup on intake valves Clean intake tract Oil buildup on intake valves Clean intake tract Reduced airflow efficiency Optimized air/fuel mixture Reduced airflow efficiency Optimized air/fuel mixture Potential for carbon-related damage Extended component life Potential for carbon-related damage Extended component life Protecting Critical Engine Components Turbocharged and direct-injection engines are particularly susceptible to the negative effects of oil vapor buildup.
How to Maintain Your Oil Catch Can for Peak Performance
The baffling creates turbulent flow, forcing the droplets to collide and merge into larger particles that are easier to capture. The Mechanism of an Oil Catch Can Installed in the hose between the crankcase and the intake, the catch can intercepts the blow-by gases.
More About What does an oil catch can do
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