Car Engine Performance | How Car Engines Work

How Car Engines Work

Have you ever opened the hood of your car and wondered what was going on in there? A car engine can look like a big confusing jumble of metal, tubes and wires to the uninitiated.

You might want to know what's going on simply out of curiosity. Or perhaps you are buying a new car, and you hear things like "3.0 liter V-6" and "dual overhead cams" and "tuned port fuel injection." What does all ­of that mean?

­­In this article, we'll discuss the basic idea behind an engine a­nd then go into detail about how all the pieces fit together, what can go wrong and how to increase performance.

The purpose of a gasoline car engine is to convert gasoline into motion so that your car can move. Currently the easiest way to create motion from gasoline is to burn the gasoline inside an engine. Therefore, a car engine is an internal combustion engine -- combustion takes place internally.

Two things to note:

* There are different kinds of internal combustion engines. Diesel engines are one form and gas turbine engines are another. See also the articles on HEMI engines, rotary engines and two-stroke engines. Each has its own advantages and disadvantages.

* There is such a thing as an external combustion engine. A steam engine in old-fashioned trains and steam boats is the best example of an external combustion engine. The fuel (coal, wood, oil, whatever) in a steam engine burns outside the engine to create steam, and the steam creates motion inside the engine. Internal combustion is a lot more efficient (takes less fuel per mile) than external combustion, plus an internal combustion engine is a lot smaller than an equivalent external combustion engine. This explains why we don't see any cars from Ford and GM using steam engines

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Car Engine Performance | Lotus Tuned Evora Into Racing Car

Now that Lotus is turning out production examples of the Evora on a steady basis, the crew on the motorsports side has turned its attention to creating a new competition car. Built to FIA GT4 specs and eligible to run in several different GT series, the Evora Cup car debuts this weekend at the Autosport International Show in Birmingham, England.

To get the car ready for the track, the Toyota V6 has been punched out to a full 4.0 liters and fitted with a dry sump oiling system. In race trim the engine is rated at 395 horsepower, with power is routed through a six-speed Cima sequential race gearbox. Upgraded six-pot calipers help the binders hold up to track use and adjustable dampers allow the handling to be adapted to the prevailing conditions and the driver’s style. At about 2,600 pounds, Lotus has shaved 440 pounds off the road car.

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Car Engine Perfomance | Toyota unveiled the TRD Aurion Pro-Factory Xtreme (Pro-FX) Car Engine Drag

Toyota unveiled the TRD Aurion Pro-Factory Xtreme (Pro-FX) Car Engine Drag

Toyota unveiled the TRD Aurion Pro-Factory Xtreme (Pro-FX) drag car at Willowbank Raceway in Queensland today ahead of its debut outing at the biggest event in Australian drag racing, the 2008 Winter nationals. Run by former Australian champion Tony Wedlock and his Ultimate Motorsport team, the TRD Aurion Pro-FX has a top speed of more than 350km/h.

Powered by a turbocharged six-cylinder Toyota engine, the TRD Aurion Pro-FX produces 1300kW and launches from 0-100km/h in less than one second. Wedlock will debut the car at this weekend’s Australian National Drag Racing Association (ANDRA) Winternationals – the headline event of the 2008 Australian season. Toyota Australia motorsport manager Todd Connolly said the TRD Aurion Pro-FX perfectly complemented Toyota Australia’s new range of performance-bred TRD-branded road cars. “Toyota is synonymous with quality, durability and reliability, while TRD has added style, passion and performance to our line-up,” Connolly said. “Today’s unveiling of the Ultimate Motorsport TRD Aurion Pro-FX takes us to a whole new level – this car has performance and excitement by the bucket-load. We are excited to have Tony Wedlock and the Ultimate Motorsport TRD Aurion Pro-FX spearheading our new drag racing program.

Wedlock, a former Australian Pro Stock Champion, said the car has been designed and built specifically to run in the new Pro-Factory Xtreme (Pro-FX) category, a class aimed at high-performance six-cylinder vehicles. The experienced national champion said he was looking forward to debuting the TRD Aurion Pro-FX at Australian drag racing’s biggest event.

“We are eager to show that as well as good looks, our Ultimate Motorsports TRD Aurion Pro-FX has performance to match,” Wedlock said. “We are looking to push the performance envelope this weekend.”

To celebrate the launch of the TRD Aurion Pro-FX, Willowbank is holding the Toyota Drag Racing Legends Race for Charity that will see four legends of the sport face-off in TRD Aurion road cars. Run over two heats and a final, the event will showcase the credentials of the TRD Aurion over the quarter-mile, while also raising money for the winner’s chosen charity.

Toyota unveiled the TRD Aurion Pro-Factory Xtreme (Pro-FX) Car Engine Drag

Toyota unveiled the TRD Aurion Pro-Factory Xtreme (Pro-FX) Car Engine Drag

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Car Engine Perfomance | AEM Advanced Engine Management "Performance Spotlight"

Advanced Engine Management got its start 19 years ago and has been on a tear ever since. The company is a tier 1 supplier of performance bolt-on accessories and performance electronics in North America. AEM is best known for the Cold Air Intake systems they pioneered for the sport compact market. They also invented the V2 induction system and air bypass valves and solved the engineering dilemma of handling hybrid intake systems for cars with engine swaps. AEM has been developing and releasing DRYFLOW oil-free air filter technology since 2005 and offering it with all of their air intake systems.

On the electronic side, AEM came up with the first programmable engine management system (EMS) that snapped right into the factory wiring harness. And they also were the first to bring to market a gauge that contained both a wide-band UEGO controller (for monitoring air & fuel ratios) and readout in the same unit.

I had an opportunity to stop by their facility, check out their operations from engineering to warehousing, and pick their brains about new products on the horizon. First ,let me say that AEM is first class company with very knowledgeable folks who are passionate about their business. A special thanks to Sami Sharaf for showing me around, answering all of my uninformed questions and following-up on outstanding inquiries. So, what's on the horizon?

On the induction systems side, AEM has some very cool Electronically Tuned Intakes (ETI) that are coming to market. These intakes come with an electronic module that is actually programmed for each application. AEM has made great strides with these kits. Filter Minder Gauges are a new item that allows you to stay up-to-date on the status of your air filter from inside your ride. And they are continuing to expand their offering of air intake systems for upcoming car models as well as back-filling kits for older models. New sizes in both conical and panel-style air filters are coming out, so keep checking back with them if they don't have your car covered just yet.

For performance electronics, there is a new, more powerful version of the current engine management system offering, Series2 EMS, that provides better compatibility with more applications with CAN-BUS compatibility and variable cam timing on the horizon. AEM is expanding their offering of gauges to include a wide-band air-fuel ratio gauge that is analog, which is very cool. And they are in the process of verifying additional applications for their line of Fuel/Ignition Controller (F/IC) products. These tools are great alternatives to piggy-back computers.

Last year for the SEMA Show in Las Vegas, AEM prepared a Suburu WRX with all of their various product offerings. Please check out the photo gallery below to see the car inside and out.

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Car Engine Perfomance | Top Bang for Your Buck Performance Mods Air Intake Systems

Are you tired of the way your car performs, but don't have the money to replace it with something faster? Well you're in luck! You don't need to spend a fortune on a different car; instead you can invest some money into your current car to make it more of what you want. There are numerous aftermarket upgrades that can dramatically change the driving experience of your vehicle. In this series I will show you 5 performance modifications that will change your average, boring vehicle, into something a bit more sporty!

The first part of this series covers aftermarket air intakes. The purpose of an air intake system is to allow the motor to bring in oxygen, so that it can mix with fuel and spark, to create combustion. The air intake “path” on most factory vehicles, especially cars with fuel efficient motors, is fairly restrictive. What does this mean to the average person? Well, the more restrictive the airway, the less are that can get in. Take a straw for instance; if you suck through it normally, it allows you to take in a certain amount of air with a certain amount of effort. However, if you slightly pinch the same straw, it restricts the intake path and requires more effort to take in the same amount of air. This same concept is applied to an engine’s air induction path.

Air Filters

Usually the most restrictive part of many factory induction systems starts with the air filter. The original purpose of the air filter is to keep contaminants from entering the combustion chambers. Whether it is a microscopic particle of dust, or a pebble the size of marble, you don’t want anything other than air being sucked into your engine. Higher performing engines have less restrictive air filters, and benefit less from replacing them with aftermarket units. However, most factory style “paper” filters do not flow quite as well as the variants offered by aftermarket companies.

There are 3 common aftermarket air filter types: foam, cotton, and paper. It’s debatable as to which truly performs the best, but most aftermarket choices flow much better than stock. The common misconception is that the factory induction design itself is restrictive. For some cars it is, but most have a very well designed intake path. Automakers spend millions of dollars in research and development to design an engine and all of it's components. Therefore, the design was engineered to work well with the motor they came on. The greatest improvement that is felt in an aftermarket intake system is the higher flowing capacity of the performance air filter.

Take a look at the difference between the highly regarded AEM filter vs. factory spec filter requirements. The aftermarket air filter can be up to twice as efficient as the factory units. That means more power and better gas mileage! Most people don’t realize how big of a difference an air filter can make in gas mileage. If you don’t change your air filter every 10-15,000 miles, you are robbing your engine of performance, and spending more in gas due to a clogged filter. The same idea can be said about going from a factory paper filter, to an aftermarket replacement, or an aftermarket intake kit. Since the stock filter restricts air going into the engine, the motor has to work harder than it would with a higher flowing filter, to take in the same amount of air.

So how big of a difference can a drop in replacement air filter make when it comes to performance? To be honest, it’s hard to say. The dyno numbers provided by most companies, are usually inaccurate, and lead to overoptimistic expectations. In all reality, an aftermarket air filter may be good for up to 5hp at best. The problem is that the factory “air-box” is not made to flow a greater volume of air then it already does. The “air-box” is the enclosure that contains the factory air filter, and protects it from the heat of the engine. Automakers purposely muffle the factory intake system to keep the engine’s decibel levels as low down. As a result, it is usually a better option to buy an aftermarket cold-air or RAM air intake system, to get the full effect of the higher performing air filter.

Cold-Air Intake Systems

What exactly is a cold-air intake? A cold-air intake is a free-flowing performance induction system that draws colder air from the front, side, or outside of the engine bay. Colder air has a higher density, which increases the actual volume of air entering the combustion chamber versus warmer air. The best engineered cold-air intakes employ an air-box, which encloses a high-flowing conical filter and keeps hot air from entering the intake tract. Very few companies offer intake systems with a new air-box, instead a heat-shield is included to help solve the hot-air issue. A proper heat-shield utilizes the hood to create the same effect as a sealed off air-box. In reality, most aftermarket cold-air setups are hybrids between a true “cold-air” intake, and what’s called a “RAM-air” intake.

RAM-Air Intake Systems

A RAM-air intake set-up is a bit different from a cold-air, most people confuse the two. RAM-air intakes rely on changes in air pressure and air velocity to improve performance. RAM-air systems increase the size of the intake ducting and shorten the path between the filter and the throttle; this in turn decreases velocity of air entering the intake plenum. The decreased air velocity increases static pressure in the combustion chamber; more pressure equals more power. The pressure increase changes the density of the air, which also improves engine performance. The intake pictured below is referred to as a "short-RAM" intake. Due to the limited space in the engine bay, the intake manufacturer designed a system with larger intake ducting and a larger filter, to increase the airflow into the engine. This is more of a hybrid intake set-up due to the added heatshield, which isolates the filter from the hot air in the engine compartment.

Dyno Results

Unfortunately it is hard to gauge the performance gains of aftermarket power modifications strictly on the information provided by the manufacturer. As with any other type of product for sale, many companies will skew the results of their products performance to appear better then they really are. This is usually the case when it comes to most air intake set-ups.

The question then becomes which type is best – cold-air or RAM-air. This is too broad of a question to answer, because different motors respond in different ways to the same modification. Some cars have small engine bays that limit the space available for the most beneficial induction set-up, while others have a plethora of options. For cars with large displacement engines, or forced induction motors, then intake design becomes more important. Some engines respond better to RAM-air systems, while most do best with a cold-air set-up. Usually the colder, denser air provided by a cold-air induction system will yield higher gains throughout the engine’s power-band versus RAM-air, which can show higher peak gains. Here is a dyno graph, showing gains on a 2002 Corvette equipped with a cold-air set-up. This dyno graph is from anonymous owner, not affiliated with the maker of the product.

As you can see, the Corvette greatly benefited from the aftermarket intake setup. The Corvette shows gains of up to 30 hp and 25 ft/lbs of torque at the rear wheels! These gains are very noticeable, and would really improve the driving experience of the car. The dyno graph shows the improvement on both vehicles throughout the entire power-band. Both of these products proved to be worthwhile upgrades, with unbiased results.

Despite the example I’ve provided, most cars see an average increase of 5whp/5wtq with aftermarket intakes. Sometimes poorly engineered, low budget, intake systems can actually rob the car of power, compared to the factory set-up. Real life driving situations skew the results even further, due to changes in air temperature. Improvements vary depending on how warm or cold the air outside the car is; the colder the air temperature, the better the results.

A properly designed air intake is definitely a worthwhile engine modification. Not only will the car see gains in peak power, but it will also change the driving experience overall. Most aftermarket intakes improve throttle response, as well as midrange and top-end power. Another quality that I love about free flowing air intakes, is the intoxicating sound that they add to the engine! I love to hear the intake roaring as I’m rowing through the gears at wide-open-throttle! There truly is no sound that can compare. If you’re looking to improve the overall performance of your car, without putting a big whole in your wallet, then an aftermarket air intake could be the answer for you.

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