Thursday, August 5, 2010

Utilizing Nitrous Oxide to Boost Your Supercharger Performance


There comes a point in your power buildup where you may consider adding nitrous oxide injection to your supercharged car. This point typically coincides with reaching a level of performance that means increased investment and diminishing returns from your supercharger. For example, my car comes from the factory with a 5th generation Eaton MP45 supercharger. This supercharger is limited to about 230hp worth of flow rating and so no matter what I do with bolt-on upgrades on my engine, my peak horsepower will not exceed 230hp limit because that is the point at which the supercharger becomes the bottle neck in my system.

As we've talked about in previous articles there is still the option of porting the factory supercharger for a 10 to 15% gain in capacity (which in this case would be another 23 to 35 horsepower). There is also the option of retrofitting a larger supercharger such as the Eaton M62 to gain potential up to over 300hp depending on the final choice of a supercharger.

This modification path (porting or replacing the factory supercharger) can prove to be complex and costly, especially if the supercharger is integrated into the intake manifold (and possibly an air to water intercooler) as the case is with many factory supercharged cars.

A possible viable solution for this situation is to use nitrous oxide injection to supplement the power delivery when racing, and being satisfied with a reliable lower powered car when the nitrous is off and we're not racing.

The reason why nitrous oxide (N2O) becomes a great power adder is twofold:

1- Nitrous is cheap as far as horsepower per dollar goes, and especially in the situations where we're already supercharged and so will only be using it on the rare occasions when we do hit the track.

2- Nitrous oxide is a great 'chiller' as it comes out of the bottle at a temperature of negative 127*F and is capable of cooling the overall supercharged air charge mixture by over 100*F as reported by enthusiasts, this is an additional temperature reduction over the effects of whatever intercooler you have fitted. This in-fact makes nitrous a great proposition for cars that have already maxed out their superchargers, where the supercharger is running at peak rpms and producing very high outlet temperatures. The nitrous oxide injection can effectively boost the thermal efficiency of the supercharger when it is most stressed out and give us a nice, cool, and dense mixture.

3- Nitrous oxide fuel delivery is fairly straight forward to setup and to tune, especially on newer model cars with return-les fuel systems, or difficult to crack computers that make it difficult to upgrade (and properly tune) a much larger supercharger setup. Nitrous oxide fuel delivery can be set-up totally independently from the OEM ECU and fuel system and thus makes nitrous a possible application for German cars with stubborn computers.

4- This is a racer technique... most cars seem to perform better during the winter months because the air is cooler, horsepower is elevated, and the tracks although cold, can be prepared for traction and will heat up enough during the night to allow for traction and to give people the ability to exploit the cold dense air to post their best times of the year. As the weather gets warmer, traction increases because the asphalt is warm and sticky, but horsepower is reduced due to warmer, less dense air. Typically racers find that their cars vary in their quarter mile performance by as much as a half a second between their summer tune and their winter tune, especially if you're using a supercharger or turbocharger that compresses (and further heats) the incoming air.

The solution to on-track consistency, racers have found, is to combine the use of nitrous oxide (which is summer friendly) with forced induction (superchargers and turbochargers) which are winter friendly. In the summer time, the outside temperature is high, and so the nitrous bottle pressure is maintained at a high level above 1100 psi. This allows for a generous nitrous flow rate under the sustained pressure (even without a bottle heater) which gives great summer performance for nitrous assisted cars. While in the winter, the outside temperatures drop significantly, the nitrous in the bottle contracts and the bottle pressure drops, subsequently, the nitrous flow rate drops and nitrous assisted cars show worse performance in the winter times.

The complete opposite is true for supercharged cars that produce great horsepower in the winter from compressing cool dense air, and poor horsepower in the summer heat. When you combine these two power adders you get pretty flat and consistent horsepower production year round because the supercharger shines when the nitrous is weak, and the nitrous shines when the supercharger is weak, and thus together, they give consistent power deliver year round.

Pre-cautions:

Now we have to consider that nitrous oxide is an oxidizer and thus not only does it increase the amount of air and fuel combusting in the cylinder, but it also produces a faster moving flame front due to the oxidizer properties of the nitrous oxide. This means that additional timing retard, great octane fuel, and possibly colder spark plugs will be required to run spray on a supercharged car. Furthermore, because of its cooling effect, a 100hp shot on a supercharged Camaro can very easily put down OVER 120 rear wheel horsepower of additional power. This means that the 'out of the box' jetting of a nitrous kit may not be adequate on a supercharged car and you'd have to make sure to monitor and possibly increase the fuel jetting to match the final horsepower figure of your car). Last but not least, if you're running a 500hp supercharged car with an additional 120hp of nitrous oxide injection, then you must make sure that your fuel delivery (fuel pump and fuel lines) are able to flow the total amount of fuel required to deliver 620hp.

Applications scenarios:

1- You have a car like mine, a 2005 C230 kompressor that comes with a 230hp limited Eaton MP45. ECU on the car is a Siemens ECU that very few people know how to tune, and the fuel system uses a return-less setup with an in-tank fuel pressure regulator. With this kind of setup all forms of dry nitrous injection are out of the question because we can neither compensate for fuel through flashing the factory ECU, nor can we elevate fuel pressure during the nitrous injection because the fuel pressure regulator is in-accessible....

Recommended kit:

A wet nitrous injection kit that injects both fuel and nitrous oxide from the injection nozzle.

Injection location:

After the supercharger, after the intercooler, and into the intake manifold of the car.

Maximum recommended injection:

25% of the original total power figure which corresponds to around a 50 hp shot of nitrous on our example.

Expected final horsepower:

60 to 65 wheel horsepower and possible about 130 ft-lbs of additional torque!

2- You have a car that has an accessible fuel pressure regulator, or an ECU that can be re-flashed for nitrous oxide or a 'dual tune' setup. In this case it is recommended to use a dry nitrous kit for two reasons:

First: Dry kits are safer on supercharged cars (as long as the fuel delivery through the injectors or raised fuel pressure is adequate) because they hold a reduced chance of intake backfires because the intake manifold is dry of fuel.

Second: Dry nitrous injection contains no fuel, and so we don't need to worry about fuel falling out of suspension from the injected air. This means that we no longer have to spray the nitrous right before the intake manifold and we now have the option to move the point of injection much farther back. Spraying nitrous BEFORE the intercooler, right after the supercharger gives the nitrous stream more time and more contact with the compressed air coming out of the supercharger which results in more cooling and further increased horsepower.

Recommended kit:

A dry nitrous injection kit that injects only nitrous oxide from the injection nozzle.

Injection location:

After the supercharger, before or after the intercooler and not necessarily right at the intake manifold of the car.

Maximum recommended injection:

25% of the original total power figure which corresponds to around a 50 hp shot of nitrous.

Expected final horsepower:

70-75 wheel horsepower and possible about 130 ft-lbs of additional torque!

3- You have a car that has an accessible fuel pressure regulator, or an ECU that can flashed for nitrous oxide or a 'dual tune' setup. You also want to make as much horsepower as possible from your nitrous...

In this case it is recommended to use a dry nitrous kit injecting before the supercharger. As we mentioned in our articles on twin charging (combining turbochargers with superchargers for added performance), when two 'chargers' are chained in series where one charger feeds the next, then the two pressure ratios of the charger combine because the second charger compresses air that is already compressed by the first. For example two turbochargers set for a 1.5 pressure ratio (or 7 psi of boost), running in sequential mode will result in a final pressure ratio of 2.25 bar (or 18psi of boost) which is more than the 'expected' 14psi that is the sum of the two boost levels.

Similarly, injecting nitrous oxide before the supercharger, delivers already compressed air. This is true weather we are talking about nitrous being compressed because it has twice the oxygen concentration as normal air or we're talking about the nitrous cooling and compressing the incoming air. The final amount of compression observed by the supercharger inlet will vary depending on the ratio of incoming air to the size of the nitrous shot, and can result in an increase in boost of between 0.5 to 2.5 psi!

This boost increase is in addition to the power increase of the nitrous oxide injection and so it can be an additional 5 to 25 hp.

Recommended kit:

A dry nitrous injection kit that injects only nitrous oxide from the injection nozzle.

Injection location:

Before the supercharger inlet.

Maximum recommended injection:

25% of the original total power figure which corresponds to around a 50 hp shot of nitrous.

Expected final horsepower:

75-100 wheel horsepower and possible about 160 ft-lbs of additional torque!

Things to avoid:

1- No matter where you setup the nitrous injection, make sure not to spray nitrous into your MAS air flow sensor or your intake air temperature sensor. These temperature dependant sensors, tell the ECU to advance the timing in colder conditions. As we mentioned earlier, nitrous is an oxidizer that increases the speed of travel of the combustion event and thus requires maintained (if not retarded) ignition timing compared to a supercharged only setup. Avoid spraying on these temperature sensitive sensors to prevent accidental timing advance from occurring.

2- Avoid spraying a wet kit (fuel) before your supercharger, as the wet fuel mist will damage the supercharger rotors and strip their coatings.

3- Make sure you check your air fuel ratio on the nitrous and don't stick to the 'out of the box' air to fuel settings with the kit. For example an extra 2.5 psi in your intake may or may not be compensated by your stock ECU and so depending on how well the ECU reacts you will have to adjust the fuel jetting on the nitrous kit.

I am a master electrical engineer who has been Interested in cars and performance modifications for the last 13 years. I have moderated one import performance website for 3 years. I have turbocharged one car, highly modified a twin turbo monster, and have a lot of gained 'experience' on my friend's cars. My current vehicle is a 2005 Mercedes C200 Kompressor which is supercharged and modified.

Find out more about supercharger performance by visiting My blog: http://www.superchargerperformance.com.


Tuesday, July 27, 2010

HONDA-What Made the Introduction of the DOHC VTEC So Special


The 1990 Acura NSX marked the introduction of the VTEC DOHC to the United States. With an increase in engine performance and fuel mileage as well as a decrease in emissions, the DOHC VTEC was built into several Honda car models; including, the Honda Del Sol, the Acura Integra and the Honda Prelude.

The first thing to notice is the engine and its integration with the other parts of the car. This is what is known as the swap feature. The H22A and H22AR engine types have been installed in the Accord to enable the swapping feature. This means it lets you implement a few changes to the sports parts general arrangement. This cuts the tweaking often necessary. The second thing is that there has to be consistency between the engine and its exhaust, cooling, intake and fuel system. Even more flexibility is achievable by changing its parts with the parts of another successful car model. A modified 4-3-1 header from a 90-93 model Accord works fine for the exhaust system. Suppose you want to modify the intake system to get faster driving. You will then have to alter it with a MAP taken from a 90-93 civic DX Mount.

When you mention "Honda Accord" most car enthusiasts will think reliable; but boring, economical transport. The Honda Accord Coupe released for the 2009 model year needs new thinking when you hear those words. You should think "fast and attractive." An Accord without back doors does not truly describe the Accord Coupe. The styling is the feature that jumps out at you. For me, it's a cross between an Aston Martin DB9 and the BMW 3 Series.

Honda has a great reputation for its use of cutting edge technology in its engines. The VTEC; Variable Valve Timing & Lift Electronic Control, is no different. Once again, it gives Honda a clear edge over its competitors. An early 1980's invention by development and research engineer Ikuo Kajitani, the VTEC is known today as having grown from the revolutionary modulated control valve system. The 1983 Honda CBR400 was its first implementation. Other manufacturing companies have developed their own models but Honda pioneered and perfected the technology; then introduced it into widespread production.

Japan is currently the leader in internal combustion engine technology. This leadership has grown rapidly into the area of hybrid vehicles. Hybrids are now popular to the point that taxis are now using them. A hybrid vehicle features both the power of an internal combustion engine and the power of a battery used while idling when minimal power is required. Japanese car makers are rapidly moving to the next level as their attention is now focused on 'eco-friendly' vehicles with 0% CO2 output.

The hybrid Honda Accord is perfect for everyone that still want great power beneath the hood while they're being environmentally conscious. Checking the fitness of your engine and its consumption of gas is the only way you will know you are driving a hybrid and not some luxury car.

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10 Top Tips For Upgrading Your Mitsubishi Evo I-III-DSM


Like many, you probably thought that once you bought your early Evo/DSM that it would be the end of money spent on it. Sure, maintenance would have to be done but the car was pretty quick from the off and you surely wouldn't want it to go quicker. And then you upgrade one part and you can feel the difference it makes. Your mindset then changes to one of "I'll just get this one upgrade, and then I'll be happy with the power/handling" and before you realize it, you've spend the GDP of a small country on the car.

But there are a multitude of upgrades available and knowing what to choose can sometimes be a daunting prospect. I'd like to think I have done pretty well with my car (a mid 11s car in the 1/4 mile and full daily driver) and so wanted to give you my top 10 tips for upgrading your Evo I-III/DSM.

  1. Have a plan. Before you make any real upgrades you should decide what you want out of the car and therefore the areas you need to look at. For example, a car made purely for drag racing is going to have different requirements for power and handling to a car made for touge or gymkhana. A lot of people just throw money at the car trying to buy every upgrade they can. While this car give you a nice looking car which performs well, it might be a jack-of-all trades and master of none. At this time, also determine if the car will also be a daily driver or whether it will be a weekend/race car only. If the latter then you'll be able to strip out the interior to save weight, but you'll be losing a lot of home comforts.
  2. Maintenance. Upgrading your car usually means pushing stock components past their normal operating limits. In order to keep reliability high you'll want to make sure a full service is done for the car (including timing belt change, if not done in the past 5 years, and balancer belt if you still have balance shafts). Also, do a full fluid change for the car, which means engine oil, gearbox oil, transfer box and rear diff, brake fluid, clutch fluid and coolant. That means everything is fresh and you know what time your service intervals start at. I will talk about service intervals for your car in a future post.
  3. Get some air in your lungs. One of the first things you should look to do is change the restrictive air filter that your stock Evo is equipped with. A lot of people will go for the HKS Super Power Flow Induction Kit, and indeed I did have that on my car for around 18 months. However, the foam filters do get dirty easily and the cleaning qualities of the HKS filter is not good, as shown by this set of reviews. Plus I have read of the foam filters getting sucked into the turbos of some cars (not an issue with the standard MAF on the Evos but still something to consider). I currently have the Apexi Power Intake and can highly recommend it. Its filtering is excellent, offers a very nice increase in low and mid-range power, and does not have to be replaced unlike the foam elements in the HKS kit. It costs a little more but works out cheaper after around a year of use. The Apexi filter also comes with a nice heat shield to keep some of the engine bay heat (which does get pretty high in a bay containing a 4G63 engine) away from the intake.
  4. Adding fuel to the fire. A car needs 2 basic things to function: oxygen and fuel. We have helped the former immensely by getting a new air filter (and possibly intake pipe), but a steady supply of fuel is vital to keep the engine performing when you put the foot down. A Walbro 255l/hr fuel pump is a very popular upgrade, and with good reason as it will support the power requirements for all but the most potent Evos. Do be wary when you get the Walbro though, and especially if you buy from Ebay. There are quite a few Chinese knock-off Walbros being sold as genuine at the moment, and fuelling is something you do not want to sacrifice on just to save a few pennies. The last thing you want is the fuel pump packing up just as you're flying down the drag strip, starving your engine of fuel and potentially causing serious damage. One thing to be aware of though is that the new fuel pump (especially with a "fuel pump rewire) can cause too much fuel to flow through and it might overrun the stock fuel pressure regulator. I can highly recommend a Sard fuel pressure regulator and fuel pressure meter. The Sard can handle the most pressure and is the best performing of the bunch, and will ensure just enough fuel gets to the engine.
  5. Power is nothing without control. "What are you talking about brakes for? I just wanna go fast!" is a common phrase from people who are starting out on the upgrade path, but is something that needs addressing. After all, it is more important to be able to stop when you need to than to be able to go. The Evos brakes are not too bad to start with, although on a circuit they will experience brake fade pretty quickly. Put in some DOT 4 brake fluid, along with a set of decent brake pads (I use Project Mu B-Spec pads front and rear) and your driving will feel much more assured. If you want to go one step further then look at a set of braided brake lines (HEL and Goodridge seem to have the best deals for the Evo I-III) and a Cusco Brake Stopper and you'll be more confident, meaning later braking into the corners and a much safer drive.
  6. Show your support. Support and stability for the car are vital when you start upgrading, very much so when you are planning to throw the car around the corners but even for straightline drag racing too. Tower strut bars can be picked up relatievly cheaply and you should get front and rear, upper and lower if you have the budget for it. They stiffen the chassis up and once again will have you cornering with confidence.
  7. Extreme logging. Am sure you're getting frustrated and want to get to the bits that will make us go faster, but bear with me. My tips are done in this way for a reason. One of the reasons I have had relative success with my tuning and upgrades so far is that everything has been done in a balanced way, with close monitoring of my car's health. Boost and oil pressure gauges are pretty much a must at this point, and a wideband will help you in the future as you increase the boost and start tuning. Alongside the standard gauges though you should really consider a datalogging device. The best one I have seen for the early Evo is Pocketlogger, and it can be combined with a dirt cheap but compatible PDA from Ebay. This little device plugs into your car's OBDI diagnostic port and is able to log a number of variables, from rpm to ignition timing to the all important engine knock levels. You can then view these logs on the PDA itself or download to your PC and analyse them there. This provides an invaluable tool for monitoring your engine's health as you do any testing.
  8. Breathe in... breathe out. What goes into your car must go out, and old adage is certainly true when we talk about gases. The stock Evo exhaust system can be a little restrictive and money spent on a cat-back exhaust system (that is, one running from the catalytic converter back to the muffler) will result in a much more powerful sound coming from your car as well as an increase in performance. I would go one step further and recommend that, if you can, you should replace the catalytic converter with a straight pipe, which is exactly what it sounds like. I should note though that this modification may be illegal in your country, and I would recommend checking with the local authorities before removing the catalytic converter. It could also cause you to fail the emissions test in your country.
  9. Boooooooooooost! Yes, we're almost at the point where we can turn up the boost. But how do you do it? The answer is a boost controller. There are 2 main types of boost controller, a simple manual controller or a more complex electronic boost controller. The former are cheaper and have a strong following in the DSM community, where the Hallman Boost Controller gets some excellent reviews. I opted for the extra features of the Blitz Dual SBC Spec S boost controller and haven't looked back. Four different boost settings, a boost warning if it gets too high, and very accurate control of your boost has made it a no-brainer for me. The Spec S is also reasonably priced and is currently holding around 1.6bar of boost on my car without any problems.
  10. Baby steps. Now is the moment you've been waiting for. You'll be able to increase the boost from the stock 0.7bar levels to around 0.8 or 0.9 bar and, providing your gauges and logger are not showing up any big problems, should be feeling a much quicker car. But take things very slowly and don't assume because you had no problems going to 0.9bar that you can immediately crank up the boost to 1.9 bar as things don't work like that. Keep things conservative, especially if the car is a daily driver. You should be aiming for zero knock.

Obviously, this is an initial guide and I haven't even started to talk about fuel controllers, blow off valves, standalone engine management systems etc. But hopefully it's given you a thing or two to think about. Do you have any more tips you'd offer people starting on the road to tuning nirvana?

Read more at Big in Japan: http://soldave.ismysite.co.uk/biginjapan

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Mitsubishi Lancer - World Renowned Compact Model


General Introduction:

Mitsubishi Lancer was built by Mitsubishi Motors as a compact model car way back in 1973. Since then, in many variants, over six million Lancers have been sold. Mitsubishi Lancer also formed the basic platform of numerous Proton models in Malaysia.

Some Important Variants:

Mitsubishi Lancer has been sold in various countries as the Soueast Lioncel, Hindustan Lancer, Mitsubishi Carisma, Colt Lancer, Dodge Colt, Chrysler Valiant Lancer, Chrysler Lancer, Plymouth Colt, Lancer GSR, Lancer Evolution, Lancer Ralliart, Eagle Summit, and Mitsubishi Mirage.

Out of these models; Lancer GSR, Lancer Evolution, and Lancer Ralliart are the best performance models and forms great part of the success story of Mitsubishi Lancer.

Some other models that form major competition to this compact model of Mitsubishi motors are Ford Focus, Honda Civic, Mazda Mazda3 and others.

First Generation Mitsubishi Lancers:

Mitsubishi Lancer was first launched in 1973 in the class of sub compact cars. At that time Mitsubishi had the Minica kei car and the compact Galant. Mitsubishi Lancer has helped Mitsubishi Motors filling in the gap between those two segments in a perfect way and at the perfect time. This has helped Mitsubishi Lancer gain popularity among the target customers right from the first day.

This model initially called Chrysler Valiant Lancer and Dodge Colt. It has got 2-door coupe, 4-door sedan and a 5-door station wagon. This generation of models extended up to 1979.

Second Generation Mitsubishi Lancers:

First generation Mitsubishi Lancers were followed by stylish Lancer EX models in 1979. The EX series included, from 1980, a turbocharged 1.8 L model. Stylistically, the boxy, angular look replaced the "coke bottle" look of the previous LAs and LBs. They came with a body style of 4-door sedan. These models look similar to Mitsubishi Mirage.

Lancer Fiore was an extension of both Lancer EX model and Mitsubishi Mirage. The Fiore was often sold as a Lancer in international markets, but also the Mirage Sedan and, with the five-door hatchback model, remained in production for a good part of the 1980s. It was also sold in Australia under the name of Mitsubishi Colt Sedan. Hence Mitsubishi has got two different names in two different parts of the world at the same time for the same model. This was termed as big strategic success for the management at that time.
Third Generation Mitsubishi Lancers:

In 1983, both Mirage and Lancer lines were renewed in a newer way. The Mitsubishi Mirage four-door and Mitsubishi Lancer sedan model became the same concept car. Turbocharged and Fuel injected models were an implicit part of this particular range. To those models in 1985, a station wagon was also added. This model spawned a raised, four wheel drive version. This helped Mitsubishi in a very big way. Often, the Mitsubishi Mirage or Mitsubishi Colt would be the name used on the three-door hatchback, and the Mitsubishi Lancer name used on the remainder. This same model also formed the basis of the original Proton sedan, the Saga, Malaysia's first car.

Some of the variants of body styles in these models are 3-door hatchback, 4-door sedan,
5-door hatchback, and 5-door station wagon. This model has got changed after 1987 in the market.

Fourth Generation Mitsubishi Lancers:

In these fourth generation models, more emphasis was put on aero dynamics and other related technological issues. Mitsubishi has invested quite a lot in R & D while designing these fourth generation models.

Inspired by the shape of Gallant, a new model was launched in 1987. This was a more aerodynamic looking Mitsubishi Lancer. Another addition to this fourth generation model was a five-door hatchback. In Australia, all models were sold as the Mitsubishi Lancer. By that time, the Lancer name was shared with the Dodge Lancer sold in North America. The sedan was sold as the Mirage Aspire in Japan.

Performance Models:

Finally Mitsubishi Lancer has also got in to the race for performance. It has got it's 3 performance variants as Lancer GSR, Lancer Evolution and Lancer Ralliart. Lancer GSR was the model of 1999's. It has got 1800cc turbocharged engine to differentiate itself from the Evolution.

Lancer Ralliart is the current stop gap between the standard Lancer range and the Evolution. However, Lancer Evolution is still the high performance version of Mitsubishi Lancer.

Srinivas is a prolific author with more than 5 years of expereince in writing on various subjects. He did MBA from SYMBIOSIS, INDIA. He can be reached at srinivas@techzing.com Apply for IT Jobs here

Article Source: http://EzineArticles.com/?expert=Srinivas_Nudurupati

The Magic Of Tuning Your Car


I've been racking my brain on something to write about this time, and it just slips my mind, oh oh writer's block, the muscle for muscle cars has left the building, hmm maybe a cup of coffee will fix it, maybe hot water cascading over my noggin, need inspiration, need guidance, don't want to disappoint, love muscle cars, I feel just like a cave man this morning ooo-oooo---aww, well give an old man a break, just maybe it'll all come back.

Tuning is an important part of making your car run right, and I'm not only talking about the engine tuning, I'm talking about suspension and chassis tuning also, the engine in the easy part, unless of course you run a turbocharger or supercharger, either one of these make the engine harder to tune, and it has to be tuned perfect at all times if you have either one of these, or two fours on a tunnel ram, all of these things will make it go faster, but require exact tuning, you can no longer tune by ear, it takes timing lights, vacuum gages, and computers, no longer just a screw driver and a wrench.

No more just running to the auto parts store and getting your cap, rotor, wires, and plugs, and gaping up the plugs and throwing it all on, you will obviously do this also, but now you will hook up your computer, timing light, and vacuum gage, you cannot have any vacuum leaks, allow your car to over heat, or get lazy about your car in general, it's a must to keep it in perfect running order all the time, or you can expect huge problems with it.

It used to be in the old days that if your engine decided to backfire when it had a supercharger, you could expect the motor to scatter all over the road, but there have been some advances, and simple ones, like pop off valves, that make this almost a thing of the past, but you'd better be ready for all the time you'll spend maintaining your car after you add this kind of performance modification to your car.

Now the suspension tuning part can get just a little involved, and it's really not my specialty, but I will give it the old college try, when tuning your suspension you'll want to think about what it is your going to use the car for, if you build a 1/4 mile car, it obviously won't handle that well in the corners, and if you build a car that handles through corners, it'll still do alright in the 1/4 mile, but you probably aren't going to win a lot of races, so you really need to give this some thought, so you get the right car for you.

The first thing that I can think of here if you want to be really competitive in any type of racing is the to look at the frame of your car, and the power of the engine that your building for it, if you have a uni-body car, and your building an engine with more then 500 HP, you might want to think about making it a full frame car, by either having a special frame built, by a company like Reher and Morrison, to insure that it can handle the power, if you decide to go with sub frame connectors to save money. then you should look in to the products that are on the market, compare, and buy the best that you can find, and weld them on, do not bolt them on the the best results.

What sub frame connectors will do for you, is fool your uni-body car in to thinking that it has a full frame, it will make the entire car a lot more rigid, which by nature will make it handle better, now I will try to explain the difference between the two types of suspension, first of all, if you've ever been to the drag strip, you'll notice that when the drag car launches of of the line it squats down in the rear, this is the first big difference between the two suspension setups, with a drag car you want to transfer as much of the weight to the rear of the car as you can when it launches off of the line, this is how you'll make those hole shots, and win races.

In 1/4 mile racing they use ladder bars, and four link suspension systems to get the power to the pavement, and getting the power to the pavement is the name of the game in 1/4 mile racing, you want as much of the power from those rear wheels getting to the pavement as possible, that is what the burn out is all about, it's not just a spectacle, it heats up the tires and creates adhesion to the tarmac surface, it's an integral part of the getting the power to the pavement that I have been talking about, once you get your ladder bars, and your four link suspension systems tuned in perfectly, it will hook up, and you will launch like a rocket.

The things that I explained above are exactly the things that you don't need in a true road race car, in a road race car your not going to heat up the tires to gain traction, you'll depend on tread patterns, and tire compounds to create the kind of traction that you'll need to be competitive here, what your looking for here is the entire car to stick to the road, you do not want it to slide, so most people will try to get the major part of the weight over the center of the car, this is what is called a mid engined car, you want that weight to be distributed over the entire car if possible, by making it a mid engined car it goes a long way toward achieving this goal, you do still need to at least put weld on sub frame connectors on the the car, here again I would suggest to have a professional build a frame for your car instead.

Road cars use aerodynamics to create down pressure on the car to help keep in on the road, and to cut through the air to help the car to move along the road easier, and they use shocks, springs, and sway bars to help limit the pitch and roll of the car body when it goes it to a hard corner, the car need to stay as level as possible to keep in on it's wheels, instead of on it's roof, and this is a highly specialized type of tuning, you should always have a professional to set this up for you, it needs to be perfect if you want the best results from your work, time, and money, the professionals will also do their magic on the steering of your car also, and they will do it right and safe.

What I'm saying here, is spend a lot of time thinking about what you want your car to do, your the only person that it has to impress in the end.

I've been in the automotive business for about 20 or 25 years, I have worked in all facets of the industry, from parts to restoration, all different makes and models, I just want to keep people interested in the old cars because it's where my heart is.

http://autorevival.com

Article Source: http://EzineArticles.com/?expert=David_Atkin

Antique Car History


Owning a car is a necessity for many people, but for many other possessing antique cars is a matter of pride and sort of a prestige symbol. Owning an antique car is in most times as costly as owning a new car as there are many people involved who are in the passion of collecting antique cars. Many antique car enthusiasts collect antique cars as a hobby or a memory. But there are several others who collect antique cars as an investment option. For them antique cars are a way to make profit - these people collect antique cars and sell it after some time at a higher price than originally brought.

Let us look in detail what an antique car is and about antique car history. According to the Antique Automobile Club of America and several other organizations worldwide, an antique car can be defined as any car which is more than 25 years of age. Sometimes it is seen that some classic cars are misrepresented as antique cars, but the real classic cars are those certain specific high quality cars from the pre-World War II era. However antique cars are not profitable to use for everyday transportation, these antiques cars are much popular for leisure driving. Antiques cars which had survived for more than 25 years are considered great survivors. And that's why owning, collecting and restoring such rare antique cars are considered as a well-liked hobby by people all over the world.

Over the years, the antique car market has seen tremendous changes. During the 1980's the value of antique cars has gone a great boom which lasted for several years. But during the early 1990's there was a great fall in price. Antique car collecting can be a type of gambling. According to antique car experts it is better to collect antique cars when you get one as the antique car market fluctuates from time to time and the future monetary value of antique car is completely unpredictable.

Most antique car buffs' love to know antique car history before buying any antique car. For them, buying an antique car is more important than buying a new car. They take enough time searching every thing about the antique car before they make a purchase. Antique car experts say that it is better to take a look into antique car history before making a deal. By spending some time in antique car history you can know whether any alterations and flaws are there in the antique car you are going to purchase. These alterations and flaws can make a big change in the value of the antique car. Determining the antique cars status and how much price it worth if you resell it in any later stage is also a good idea before purchasing it.

As antique cars are those cars which have survived over a period of twenty five years, the antique car history is worth mentioning. If you are an antique car enthusiast check the current position of the antique car you are going to add to your antique car collection. If the antique car is a much fashionable one then the value of antique cars will be highly expensive. If it is not a fashionable one to collect, then the demand will be less and you can obtain it at a low price. The condition of the antique car also influences the value. A good condition antique car will surely cost much more than a poor condition antique car.

Hence before buying any antique car it is advisable to know the antique car history. Don't forget to determine the antique cars status and how much price it worth if you sell it later. Nowadays there are numerous websites which are providing information about antique cars. Most of these websites features photographs of antique cars and collector's forums. Checking these sites will help you to get a brief idea of antique car history. This will be a plus point for any antique car buffs.

Article Source: http://EzineArticles.com/?expert=Sonali_Sen

Friday, July 16, 2010

Taking Care of Your Petrol Or Diesel Turbo Car

Installing a turbo kit in your car will indeed add to its value but what good does it get if after a week of installing the kit, it breaks down? Turbochargers are there for the main reason that you want a faster and more efficient car. These turbo kits are costly and you do not want them to be breaking down on you, not because of factory defect, but because of personal neglect by the car's owner, also known as you.

There are ways and tips to follow in order to keep your turbo car in tip top shape. A healthy turbo has enough oil for lubrication and cooling. When thinking of a turbo car, oil is probably the most important factor that can affect the way your turbo operates. Regarding oil issues, you have to take note to use only synthetic oil for your engine. The reason for this is because these oils are undeniably better at withstanding thermal breakdown. Of course this is important as you already know that turbo engines have the tendency to operate at very high heat. Oil change for turbo cars must be done every 2500-3000 miles as oil breaks down and get dirty fast. Another important thing to do is to check the oil level often since the engine is exposed to a lot of strenuous conditions, pressure and excess heat. Also, you have to remember to let the oil cool down before turning off your car. You can do this by letting the car stay idle for a period of time. This is done to avoid damage to the turbo bearings and oil lines. Still in connection to the importance of oil, make sure that the turbo bearings are well lubricated before starting the engine especially after an oil change.

The tips mentioned above are the most common advice that are to be followed when maintaining a turbo car, but there are a lot of supplementary advice that can also be used to maximize the performance and lengthen the life of your turbo car. First, is to make sure that the wastegate signaling hose is not hardened or cracked. Another tip is to make sure that the throttle position sensor (TPS) is working properly. Cleaning the throttle body is also a way of maintaining your turbo car. It is advisable to clean the throttle body every 30,000 miles. To help maintain your turbo car, make sure that the tires do not go bald because it will have a deteriorating effect on the suspension. Especially that you have a high powered turbo car, you do not want to go through potholes and fall hard because of poor tires and suspensions. Changing the air filter every 10,000 miles will contribute to your car's maximum performance. The timing belt also has to be replaced every 40,000 miles for optimum turbo performance. More importantly is to make sure that your turbo system and your car stays cool and one way to do this is putting a switch in line with the air conditioning fan for you to use in bad traffic or in long drives.

There are a lot to consider when maintaining a turbo car, which is just right since a turbo car needs special attention as it is not like any ordinary car. A turbo car is engineered to excellence that is why maintenance is very important to preserve its performance.

Visit us for more info at Turbo kit Specialist Turborevs and Dump Valves.

Article Source: http://EzineArticles.com/?expert=Dave_Page