Turbo Calculators
- Bore: Cylinder diameter in inches.
- Stroke: Engine stroke in inches.
- Number of cylinders: Number of cylinders.
- R.P.M: Engine revolutions per minute.
- Ambient air temp: Air temperature of of the day, in degrees Centigrade. To convert Fahrenheit to Centigrade, C = (5 9) * (F – 32)
- Engine VE: Engine Volumetric Efficiency in percent. VE changes with engine RPM, a engine at wide open throttle at 3000rpm could have a VE of 90% and at 6000 rpm 60%. This is a rough guide. At maximum RPM modified engines may have a better VE, e.g.: average overhead valve engines 45% to 75%, overhead cam twin valve 65% to 80%, four valves per cylinder 75% to 90%.
- Boost Pressure: Boost pressure in pounds per square inch.
- Compressor efficiency: Turbocharger compressor efficiency in percent. average turbocharger compressor efficiency 60% to 70%.
- Intercooler Temp: Temperature of cooling medium for intercooler in Centigrade.
- Intercooler efficiency: Intercooler efficiency in percent. Average intercooler efficiency 70% to 75%.
- Bore: Cylinder diameter in inches.
- Stroke: Engine stroke in inches.
- Deck Height: Distance top of piston stops from top of bore. eg: .030 thousand of inch.
- Gasket Thickness: Cylinder head gasket thickness, eg: average gasket, .040
- Head Volume: Cylinder head combustion chamber volume in Cubic Centimeter’s. If piston is dished , notched or has lump on top allow for this. To convert Cubic Inches to Cubic Centimeter’s, CC = CI * 16.387.
- Compression Ratio: Ratio of combustion chamber to cylinder volume + combustion chamber.
- Options: Find compression ratio. Find Combustion chamber volume.
- Bore: Cylinder diameter in inches.
- Stroke: Engine stroke in inches.
- Engine VE: Engine Volumetric Efficiency in percent. VE changes with engine RPM, a engine at wide open throttle at 3000rpm could have a VE of 90% and at 6000rpm 60%. This is a rough guide. At maximum RPM modified engines may have a better VE, eg: average overhead valve engines 45% to 75%, overhead cam twin valve 65% to 80%, four valves per cylinder 75% to 90%.
- Standard Comp: The Compression Ratio of the engine.
- Boost Pressure: Boost pressure in pounds per square inch.
Match a Turbocharger to suit your engine.
- Engine capacity: CC (CC = CI * 16.387)
- Boost: Pounds per square inch. (LB = KPA / 6.80)
Instructions
Turbo Map can be used to plot a Turbocharged engine’s air flow against various compressor flow maps, to determine what compressor wheel best suits your engine.
The points fields are used to plot the air flow at different RPM and boost conditions. It is not necessary to fill in all points fields, just one if you wish. If a point is not visible, you will need to try a bigger map. The following is an example of using the points fields.
Point 1: 7000 RPM – 12 Boost – 80 VE – 60 Comp Effi – Point 1 is the maximum engine RPM.
Point 2: 4000 RPM – 12 Boost – 90 VE – 72 Comp Effi – Point 2 is the RPM where maximum boost is achieved. (Wastegate starts to control boost pressure)
Point 3: 2000 RPM – 1 Boost – 100 VE – 60 Comp Effi – Point 3 is the RPM where boost starts.
When selecting a compressor that is the best match for your engine, select a flow map where the point the maximum boost is first achieved. (Point 2 in this case) is close to the surge line, this will ensure maximum compressor efficiency through the engines maximum torque RPM.
- Bore: Cylinder diameter in inches. (inch = mm / 25.4)
- Stroke: Engine stroke in inches. (inch = mm / 25.4)
- Num of Cylinders: Number of cylinders.
- R.P.M: Engine revolutions per minute.
- Air temp: Air temperature of of the day, in degrees Centigrade. To convert Fahrenheit to Centigrade, C = (5 9) * (F – 32)
- VE: Engine Volumetric Efficiency in percent. VE changes with engine RPM, a engine at wide open throttle at 3000rpm could have a VE of 90% and at 6000 rpm 60%. This is a rough guide. At maximum RPM modified engines may have a better VE, e.g.: average overhead valve engines 45% to 75%, overhead cam twin valve 65% to 80%, four valves per cylinder 85% to 95%. On some modified engines 100% to 110% VE.
- Boost: Boost pressure in pounds per square inch.
- Compressor efficiency: Turbocharger compressor efficiency in percent. average turbocharger compressor efficiency 60% to 75%.
- Inter Water Temp: Temperature of cooling medium for intercooler in Centigrade.
- Inter efficiency: Intercooler efficiency in percent. Average intercooler efficiency 70% to 75%.
- BHP: Power produced by the engine.
- Lbs: Air Flow in Pounds per Miniute.
Find ET, HP, MPH and Weight(lbs)
Differential Ratio
Contact us or Call Us
TurboFast
57 Anderson Street, Cairns
Qld. 4870, Australia
- (tel) 07 4051 6672
(fax) 07 4051 3683