Engine tuning is the adjustment, modification or design of
internal combustion engines to yield optimal performance, either in terms of power output or economy. It has a long history, almost as long as the development of the car in general, originating with the development of early racing cars, and later, with the post-war hot-rodmovement. Tuning can describe a wide variety of adjustments and modifications, from the routine adjustment of the carburetorand ignition systemto significant engine overhauls. At the other end of the scale, performance tuning of an engine can involve revisiting some of the design decisions taken at quite an early stage in the development of the engine.
On older engines, setting the idling speed, mixture, carburetor balance, spark plug and distributor point gaps and ignition timing were both regular tasks on all engines and the final but essential steps in setting up a racing engine. On modern engines some or all of these tasks are automated, although they still require periodic calibration.
A tune-up usually refers to the routine servicing of the engine to meet the manufacturer's specifications. Tune-ups are needed periodically as according to the manufacturer's recommendations to ensure an automobile runs as expected. Modern vehicles now often run over 160,000 km (or 10 years) without requiring a tune-up.Fact|date=September 2007
Tune-ups may include the following:
* Re-fastening of
* Adjustment of the
carburetoridle speed and the air-fuel mixture
* Inspection and possible replacement of
ignition systemcomponents like contact breaker, distributorcap and rotor button
* Replacement of the
air filterand other filters
* Inspection of
* Valve adjustment
Modern engines are equipped with an engine management system which can be modified to different settings, producing different performance levels. Manufacturers often produce a few engines which are used in a wider range of models and platforms, and this allows the manufacturers to sell cars in various markets with different regulations without having to spend money developing and designing different engines to fit these regulations. This also allows for a single engine to be used by different brands, tuned to suit their particular market.
Performance tuning focuses on tuning an engine for
motor sport, although many such cars never compete but rather are built for show or leisure driving. In this context, the power output, torque, and responsiveness of the engine are of premium importance, but reliability and fuel economy are also relevant. In races, the engine must be strong enough to withstand the additional stress placed upon it, and so is often far stronger than any mass-produced design on which it may be based, and also that the vehicle must carry sufficient fuel. In particular, the transmission, driveshaftand any other load-bearing powertraincomponents may need be modified to withstand the load from increased power.
In most cases, people are interested in increasing the power output of an engine. Many well tried and tested techniques have been devised to achieve this, but all essentially operate to increase the rate (and to a lesser extent efficiency) of combustion in a given engine. This is achieved by putting more fuel/air mixture into the engine, using a fuel with higher energy content, burning it more rapidly, and getting rid of the waste products more rapidly - this increases
volumetric efficiency. In order to check the amount of the fuel/air mixture, air fuel ratio meters are often used. The weight of this fuel will affect the overall performance of the car, so fuel economy is a competitive advantage. This also means that the performance tuning of an engine should take place in the context of the development of the overall vehicle.
The specific ways to increase power include:
* Increasing the
engine displacementby one or both of two methods: "Boring" - increasing the diameter of the cylinders and pistons, or by "stroking" - using a crankshaftwith a greater throw.
* Using larger or multiple
carburetors, to create a more controlable fuel/air mixture to burn, and to get it into the engine more smoothley. In modern engines, fuel injectionis more often used, and may be modified in a similar manner.
* Increasing the size of the valves in the engine, thus decreasing the restriction in the path of the fuel/air mixture entering, and the exhaust gases leaving the cylinder. Using multiple valves per cylinder results in the same effect - it is often more difficult to fit several small valves than have larger single valves due to the valve gear required. However it is difficult to find space for one large valve in the inlet and a large valve on the outlet side. Sometimes a large inlet valve and two smaller outlet valves are fitted as the heat generated during combustion creates expansion and therefore a larger quantity of exhaust gas than clean charged gas.
* Using larger bored, smoother, less contorted intake and exhaust manifolds. This helps maintain the velocity of gases. Similarly, the ports in the cylinder can be enlarged and smoothed to match. This is termed
cylinder head porting, usually with the aid of an air flow benchfor testing and verifying the efficiency of the modifications. Manifolds with sharp turns force the air/fuel mix to separate at high velocities as fuel is heavier than air.
* The larger bore may extend right through the complete exhaust system, using larger diameter piping and low back pressure
mufflers, and through the intake system, with larger diameter airboxes and high-flow, high-efficiency air filters. Muffler modifications will change the sound of the car's engine, usually making it louder; for some tuners this is in itself a desirable effect.
* Increasing the valve opening height (lift), by changing the profiles of the cams on the
camshaftor the lift ( lever), ratio of the valve rockers (OHV engines), or cam followers (OHC engines).
* Optimising the valve timing to improve burning efficiency - usually this increases power at one range of operating
RPMat the expense of reducing it at others. For many applications this compromise is acceptable. This can usually be achieved by fitting a differently profiled camshaft. See also valve timing, variable valve timing.
* Raising the
compression ratio, which makes more efficient use of the cylinder pressure developed and leading to more rapid burning of fuel, by using larger compression height pistons or thinner head gasket, or by milling or "shaving" the cylinder head. High compression ratios can cause knock unless high octane fuels are used.
Forced Induction; adding a turbochargeror supercharger. The fuel/air mix entering the cylinders is increased by compressing the air. Further gains may be realised by cooling compressed (and thus heated) intake air with an air-to-air or air-to-water intercooler.
* Using a fuel with higher energy content or by adding an oxidiser such as
* Reducing losses to
frictionby machining moving parts to lower tolerances than would be acceptable for production, or by replacing parts. A common example of this is, in OHV engines, replacing the production rocker arms with replacements incorporating roller bearings in the roller contacting the valve stem.
* Reducing the mass of the "rotating mass", which comprises the crankshaft, connecting rods, and pistons. Doing so can improve throttle response due to lower inertia, as well as reduce overall vehicle weight. This may be achieved by using
titaniumparts instead of steel. However a heavy crankshaft can void the need for a flywheel (common on V6 engines).
* Changing the tuning characteristics electronically, by changing the
firmwareof the engine management system (EMS). This " chip tuning" often works because modern engines are designed to produce more power than required, which is then reduced by the engine management system to make the engine operate smoothly over a wider RPMrange, with low emissions. This is called de-tuning and produces long-lasting engines and the ability to increase power output later for facelift models. Recently emissions have played a large part in de-tuning, and engines will often be de-tuned to produce a particular carbon output for tax reasons.
The choice of modification depends greatly on the degree of performance enhancement desired, budget, and the characteristics of the engine to be modified. Intake, exhaust, and chip upgrades are usually amongst the first modifications made as they are the cheapest, make reasonably general improvements, whereas a different camshaft, for instance, requires trading off smoothness at low engine speeds for improvements at high engine speeds. Any increase in power output will wear engine parts above their normal wear rate.
Furthermore, tuners may also use analytical tools to help evaluate and predict the effect of modifications on the performance of the vehicle.
An engine "overhaul" means putting the engine back to factory specifications. This generally involves new
piston rings, bearingsand gaskets. When done by a competent engine builder the engine will perform as new.
A "top overhaul" only covers the replacement of components inside the
cylinder headwithout removing the engine from the vehicle, such as valve and rocker arm replacement. A "full overhaul" however covers the whole engine component replacement which requires the engine to be removed from the vehicle, such as replacing the connecting rods and crankshaft bearings. By comparison, a full overhaul service costs more than a top overhaul service.
Rebuild is a marketing term with no fixed definition. It is often taken to mean a professional overhaul with certain parts replaced with new units whether needed or not. For example some rebuilders will always replace the pistons (which often are not replaced during an overhaul unless damaged).
Re-manufactured is a marketing term to mean an engine put together to match factory specifications e.g. "as new". Although often a buyer may take this to mean all-new parts are used, this is never the case. At the very least, the
cylinder blockwill be used, as may most other parts. High-quality rebuilds will often include new pistons and line-boring of the crankshaft and camshaft bores.
In engine blueprinting, all the specifications are double-checked. Usually this indicates closer-than-factory tolerances, with custom specifications appropriate for a street car or a race car. The goals usually are to:
* Ensure the engine puts out the rated power (because not all mass-production engines put out the rated power) for its manufacturer's designor
* Make more power out of a given engine design, by extra careful measurement and assembly
* balancing of reprocating parts and rotating assemblies, to reduce engine vibrations thus achieving more power due to recover of power "lost" to vibrations
Ideally, blueprinting is performed on components removed from the production line before normal balancing and finishing. If finished components are blueprinted, there is the risk that the further removal of material will weaken the component. However, lightening components is generally an advantage in itself provided balance and adequate strength are both maintained, and more precise machining will in general strengthen a part by removing stress points, so in many cases performance tuners are able to work with finished components.
For example, an engine manufacturer may list a piston ring end-gap specification of 0.003 to 0.005 inches for general use in a consumer automobile application. For an endurance racing engine which runs hot, a "blueprinted" specification of 0.00045 to 0.00050 may be desired. For a drag-racing engine which runs only in short bursts, a tighter 0.00035 to .00040 inch tolerance may be used instead. Thus "Blueprint" can mean tighter or looser clearances, depending on the goal.
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