![]() ![]() Likewise a reduction in compression ratio from 11:1 to 7.0:1 should result in a 12.3-percent decrease in power.īelieve it or not, high-compression engines of the late ’60s, with compression ratios up to 12.5:1, had higher thermal efficiencies than many of today’s engines. Plugging through this equation we find an increase in compression ratio from 8.0:1 to 11.0:1 should result in a 9.2-percent increase in power. These values were obtained using the thermodynamics equation to establish the thermal efficiency of an Otto cycle engine. In fact, more accurate projections can be found in the accompanying DSPORT chart. How much additional power can be expected with a higher compression ratio? The old-school rule of thumb is that each additional point that the compression ratio is raised will deliver an additional 4 percent power. In basic terms, higher thermal efficiencies translate into additional horsepower and better fuel economy. This means that the engine is able is turn more of the heat generated from the combustion process into horsepower instead of wasted heat. So how does an engine’s compression ratio affect performance? All other factors being equal, an engine with a higher compression ratio will deliver a higher thermal efficiency. A 10-to-1 compression ratio means that the air- fuel mixture gets squeezed down from the full volume of the cylinder to a volume that is just roughly one tenth of the cylinder’s size. ![]() THE BALANCE OF BOOST VERSUS COMPRESSION RATIO HAS BEEN AN ENGINE BUILDER’S AND TUNER’S CHALLENGE FOR YEARS Compression RatioĪs the name indicates, the compression ratio of an engine indicates how much the air-fuel charge is compressed during the compression stroke of the four-stroke process. An engine’s thermal efficiency is highly influenced by the engines static compression ratio. How well an engine can convert the heat (thermal energy) into power (kinetic energy) is quantified by an engine’s thermal efficiency. The engine’s second task is to convert this thermal energy into kinetic energy in the form of horsepower at the flywheel. Using a four-stroke cycle, a fuel-and-air mixing strategy and a spark for ignition, the internal combustion engine’s first task is to convert the chemical energy stored in the fuel into thermal energy (heat) through a process called combustion. Without going into a lengthy explanation of internal combustion engine dynamics, your vehicle’s engine is a machine designed for energy conversion. Understanding how both compression ratios and boost pressures affect performance is a key to maximizing performance from your street or race vehicle.īy Michael Ferrara // Photos by DSPORT Staff Today’s performance engines are running at higher boost pressure levels and higher compression ratios than ever before. This reality includes the leading-edge forced induction and engine-management technologies that make power production the easy part of building a racecar. Combustion Chamber Volume/cylinder head volume: Total volume of the area from the piston dome at TDC inside the cylinder head.One-thousand horsepower, four-cylinder engines are today’s reality in import drag racing.Head Gasket Specs: How thick the head gasket will be once compression, as well as the bore of the gasket.Stroke Length: How far the piston will travel from TDC to BDC.Cylinder Bore: The width of the engine blocks cylinder.Not sure what they are? Check them out now. Most of these can be obtained by checking out the product listing, giving us a call, or contacting the manufacturer of the internals you're planning on using. There are a few key items you'll need to know about your internals before you calculate combustion chamber volume, find your engine's optimal compression ratio, or find any volumes in general. You'll be able to find the value of the best engine internals for your power goals, allowing you to quickly move on to different, more enjoyable aspects of the build such as choosing the right turbocharger! If you're tackling an engine build by yourself, you'll also find an engine compression calculator handy. ![]() One of the most commonly used calculators is a compression ratio calculator, which will help you narrow down on your goal CR while being a quick and easy way to test different engine internal setups. If this is the case, you must seek out different calculators to help navigate the deep sea that is engine internals to find the best value for power! But sometimes, an engine builder may not be able to recommend internals if they're not familiar with your platform. Building a motor is intimidating and should be performed by an experienced engine builder who has all the right tools to complete the job. ![]()
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