CC Per Hour Calculator
Calculate your engine's fuel consumption rate in cubic centimeters per hour for performance tuning and efficiency analysis
Engine Specifications
Fuel System
Usage Conditions
Fuel Consumption Results
Enter your engine parameters to calculate fuel consumption efficiency.
Performance Analysis
Your detailed engine performance analysis will appear here.
๐ Common Engine CC/Hour Reference Values
| Engine Type | Displacement | Typical RPM | Avg. CC/Hour |
|---|---|---|---|
| 125cc Motorcycle | 125cc | 7,000 | 1,200-1,800 |
| 600cc Sport Bike | 600cc | 10,000 | 4,500-6,500 |
| 1.8L Car Engine | 1,800cc | 3,000 | 3,000-4,500 |
| 5.0L V8 | 5,000cc | 5,000 | 12,000-18,000 |
| 50cc Scooter | 50cc | 6,000 | 600-900 |
| 2.0L Turbo | 2,000cc | 4,500 | 5,000-7,500 |
Note: Actual consumption varies based on tuning, load, and operating conditions.
๐ง Engine Tuning Tips
Fuel Efficiency
Leaner mixtures improve economy but risk engine damage. Optimal air/fuel ratios vary by fuel type.
Data Logging
Monitor actual fuel consumption with OBD2 scanners or ECU data to validate calculations.
Injector Sizing
Choose injectors that provide needed flow at 80-85% duty cycle for headroom.
Forced Induction
Turbo/supercharged engines require 20-40% more fuel at boost compared to NA.
RPM Management
Higher RPM exponentially increases fuel consumption due to more combustion cycles.
Fuel Types
Alcohol fuels (methanol/ethanol) require 1.5-2x more volume than gasoline for same power.
Note: This calculator provides theoretical estimates based on standard formulas. Actual fuel consumption may vary due to engine condition, tuning, environmental factors, and measurement accuracy. Always verify with real-world data when tuning critical systems.