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Not enough Room for a turbo?

 
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Rebel Zorce Ossifah


Joined: 28 Sep 2005
Posts: 138

PostPosted: Sat Sep 23, 2006 10:36 am    Post subject: Not enough Room for a turbo? Reply with quote

Try this :





















I would have put the intake (or maybe the while turbo unit ) inside the trunk though..
The long boost line back to the carb provides passive intercooling. (which i think is another way of saying REAL LAG ...jus it doh sound so bad)...
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Fuzz Windu
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Joined: 07 Apr 2005
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PostPosted: Tue Jan 09, 2007 7:45 pm    Post subject: Reply with quote

was wondering how dat would respond having the turbo that far away
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MG Man
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PostPosted: Tue Jan 09, 2007 9:21 pm    Post subject: Reply with quote

^^^the return line always has boost pressure, so it actually reduces lag....also keeps underbonnet temps cool
I saw this application on a pickup on 2 Guys Garage on Speed..........worked amazingly well.....u hadda watch out for speed bumps on a low car tho.........
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MG Man
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PostPosted: Tue Jan 09, 2007 9:23 pm    Post subject: Reply with quote

really dumb place for the intake tho.................bolt-onkits are available for different pickups on the US market
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wagonrunner
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Joined: 03 Sep 2005
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PostPosted: Tue Jan 09, 2007 10:45 pm    Post subject: Reply with quote

they call this kind of setup "remote turbo". seen it on the forums before.
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Plex
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Joined: 01 May 2005
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PostPosted: Wed Jan 10, 2007 9:21 am    Post subject: Reply with quote

Interesting...First time i see an intake placed under the car like that..
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Fuzz Windu
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PostPosted: Fri Jan 12, 2007 8:04 pm    Post subject: Reply with quote

no flood for that car
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Plex
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PostPosted: Fri Jan 12, 2007 8:38 pm    Post subject: Reply with quote

Thats what i was thinking, but then again it must have been built for track use only..But sweeeet project...Nice work on this car..
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Fuzz Windu
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PostPosted: Fri Jan 12, 2007 11:17 pm    Post subject: Reply with quote

workmanship is great but like this guy likes to clean his air filter a lot lol
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Rebel Zorce Ossifah


Joined: 28 Sep 2005
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PostPosted: Tue Jan 16, 2007 12:05 pm    Post subject: Reply with quote

Fuzz..
Check the link
http://www.ststurbo.com/turbo_systems1

http://www.ststurbo.com/how_it_works






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Plex
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PostPosted: Tue Jan 16, 2007 5:23 pm    Post subject: Reply with quote

Nice shots...what hp, torque figures like?
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Red Dawg
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PostPosted: Thu Apr 19, 2007 9:23 am    Post subject: Reply with quote

imagine hitting a puddle of water when the turbo is red hot.
easy fit but is it really practical for daily use.
exhaust note must be great though.
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NarendZORCE
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PostPosted: Thu Apr 19, 2007 10:14 am    Post subject: Reply with quote

Is that the gas tank next to the turbo in that last pic?
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dlittlelion
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PostPosted: Thu Apr 19, 2007 12:37 pm    Post subject: Reply with quote

what about the oil return line with respect to the flow characteristics after the oil is super heated and whipped into a cream Question
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Rebel Zorce Ossifah


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PostPosted: Mon Apr 23, 2007 8:05 am    Post subject: Reply with quote

With the turbo so far back, don't you get a lot of turbo lag?
No, our turbochargers are sized to operate at this remote location. Just like any turbocharger, once the turbo is up to temperature and in the rpm range for which it was designed to operate. The boost comes on hard and fast. All of our systems will produce full boost below 3000 rpm.
If you were to take a conventional turbo and place it at the rear, you would have lots of lag and consequently, our turbo wouldn't work properly if mounted up front.
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Doesn't water get into your engine with the filter mounted down low?
No, every kit includes either a snorkel kit which locates the air filter high in the rear quarter panel or an air filter shield. We also include an Outerwears Dry Charger which is a "sock" that protects the filter under very dusty or wet conditions. The only thing you don't want to do is completely submerge the filter. This would draw water through the filter and into the intake tubing. For most vehicles that would mean you would have water coming in your doors before you'd have a problem with the turbo's air filter.
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Without a muffler, how does the vehicle sound?
The turbo does an amazing job of muffling sound. Most people think it sounds like a performance muffler. You can add a high flow muffler to the system, but most of our customers like the performance sound with just the turbo.
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How long does it really take to install your system?
Average install times are about 8 hours for first timers. Our install techs usually spend 4-6 hours for a typical install.
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With so long of intake and exhaust tubes, doesn't it take a while for the boost to build up?
No, our intake tubing volume is about the same as most conventional turbo setups that are running a front mounted intercooler, and less than many of them that run large intercoolers. We aren't talking about a small compressor filling up a large air tank, we are talking about a huge compressor filling up a very small volume which only takes a fraction of a second. Our systems compress the intake tubing in about .05 seconds. So much for turbo lag...
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How is the turbo lubricated?
Our system uses the engine's pressurized oiling system to supply the turbocharger. This pressurized oil travels approximately 12 feet through tubing which dissipates heat out of the oil just like an oil cooler to provide cool oil to the turbocharger. The oil is then scavenged from the turbocharger via an electric oil pump which returns the oil to the engines valve cover through another long length of tubing which again cools down the turbo-heated oil before entering the engine.
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With the turbo located under the fuel tank on the Camaro, doesn't it heat up the fuel?
We have done temperature testing on this issue and found that the factory heat shield does a great job of preventing the transfer of heat into the fuel tank. The temperature of the air on top of the heat shield only rose about 15F higher than ambient temperature with a full boost run. The only time you might see an increase in actual fuel temperature would be during extensive stationary dyno testing when there isn't any substantial airflow around the turbocharger and rear of the car. We recommend running a full tank of gas for any dyno testing.
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Does installing a STS turbo system void my vehicle's warranty?
No, it is illegal for a dealership to void your warranty simply because you have modified your vehicle. It is the dealership's responsibility to prove that a modification was the reason for a failure. With that said, some dealerships are more performance oriented and are more willing to work with customers. We suggest consulting with your local dealership regarding their warranty specifics. For additional questions, see the Magnuson Moss Warranty at http://www.enjoythedrive.com/content/?id=8124
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How much boost can I run with this turbocharger?
The basic kits run 5-6 psi boost. The turbocharger on our basic kits is capable of producing higher boost of 15+ psi. However, in most cases a larger turbocharger would be more efficient at higher boost levels. There is more to running higher boost than just turning the boost up. You must also be able to meet the fuel demands of higher boost as well as set up the engine to handle the extra power so that you don't cause mechanical failures with the engine.
Higher boost will also raise the "boosted" compression ratio of the engine that will require higher octane fuel to prevent detonation. Bottom line - Don't crank up the boost unless you have done your homework and made the necessary modifications to handle the boost.

We handle high boost applications on an individual basis to ensure that you are getting the right turbocharger setup for your specific needs.
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What happens if something goes wrong with the oil pump?
In the event of an oil pump failure, the system is equipped with an alarm which will sound inside the vehicle to warn you that you are experiencing an oil system problem so that you can prevent any damage to the turbo or engine. This alarm is designed to warn you of any problems with the oil pump well before a complete shutdown of the pump.
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If water hits the hot turbo, will it crack?
Seems like it might when you first think about it, however, when I asked the Garrett engineers this questions they just laughed. There is a big difference in water splashing on a hot turbo and submerging it in enough water and fast enough to really cool it down fast. Both the new turbocharged Vette systems and the new Porsche systems sit the turbo down low and exposed to water and anything else that goes under a car.
Plus, our turbos just don't get that hot and when weather conditions are such that there is a lot of water around, you can't push enough boost to get the turbo hot anyway because you'd just spin the tires.
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What type of tuning is needed with this setup?
We recommend tuning with any forced induction. There are a variety of options available from custom dyno tuning, to mail order tunes to FMUs.

Our recommended tuning solution is Nelson Performance in Texas. He has tuning available for the GM vehicles and his tuning package can be purchased through the STS Power Dealers. For more information see Tuning on the Products page. For Toyota trucks running additional boost we recommend a FMU and an aftermarket fuel pump. For high boost applications we recommend a fuel pressure regulator combined with the Unichip tuning solution. All of these parts are available through your local STS Power Dealer.
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Is a turbo timer or pre-lube device necessary with your system?
No, the turbocharger temperatures on our systems are approximately 500F cooler than turbo temps on conventional systems so the oil doesn't get hot enough to carbonize in the turbocharger bearings. With the turbocharger located where it is exposed to ambient air rather than trapped under the hood, the turbocharger quickly cools down as well so cool down times after runs don't need to be 5 to 10 minutes. As far as pre-lubrication, our system incorporates our "Wet Start" system which keeps oil at the turbo inlet at all times so that the turbocharger has an instant oil supply at start up.
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Do I need to put headers on to optimize the turbo system?
No, the extra expense and work to install aftermarket headers isn't necessary. Headers are designed to eliminate backpressure in the exhaust system and facilitate exhaust scavenging and flow on normally aspirated engines. Turbocharged engines work on slightly different principles. Namely, there is exhaust "Pressure" between the cylinder heads and the turbocharger because the turbocharger is the smallest diameter orifice in the exhaust system. The turbine housing gets smaller in diameter to increase the velocity of the exhaust gasses before they hit the turbine wheel. This is how you get 100,000 rpm wheel speeds.
Turbocharged exhaust gas pressures can see as high as 30+ psi on high boost applications. So spending money on higher flowing exhaust components designed to lower exhaust backpressure is usually a waste of money. This money would be better spent on an upgraded turbocharger which would produce more efficient boost with less backpressure or just spending the money on upgrading the engine and fuel system to handle more boost.
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Doesn't heat create the velocity in the exhaust gasses to spool the turbo?
No, heat doesn't create velocity. Heat creates volume. If you look at any of the physics laws for gasses, you will find that pressure and volume and heat are related. PV=NRT is a popular one, The V isn't for velocity, it is for Volume.
The turbine housing is what creates the velocity. The scrolling design that reduces the volume of the exhaust chamber as it scrolls around causes the gasses to have to increase in velocity and pressure to maintain the same flow rate.

Hotter gasses have more volume, thus requiring a higher A/R which in effect means that it starts at say 3" and scrolls down to approximately 1". Lower temperature gasses are denser and have less volume, so they require a lower A/R housing which would start at the same 3" volume, as the turbine housings use standard flanges, and scroll down to say 3/4".

Now if you were to reverse the housings in application, the conventional turbo would spool up extremely quick, at say around 1500 rpm but would cause too much backpressure at higher rpms because the higher volume of gas couldn't squeeze through the 3/4" hole without requiring a lot of pressure to force it through. On the reverse side, the remote mounted turbo with its cooler denser gasses, wouldn't spool up till say around 4000 rpms but once spooled up would make efficient power because it doesn't require hardly any backpressure to push the lower volume of gas through the larger 1" hole.
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How efficient is the intercooling from your tubing?
At 5 to 6 psi we typically get at least 50% intercooler efficiency numbers from our systems and some of the truck systems which have better exposure to cold air are even better. Combine this with a pressure drop of only about 1/4 to 3/4 psi and it makes for very good numbers.
Testing on our LS1 produced the following results:

Turbo outlet temps at 5 psi boost were 175F and intake temps were 115F which is about 52% efficient.

Turbo outlet temps at 8 psi boost were 225F. This is a 50F increase with only 3 psi added to turbocharger boost.

For those wanting to run more boost we recommend a front mounted intercooler. We sell bolt-on solutions for the Hemi and the GTO. We will be coming out with more applications soon.
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Isn't there a huge pressure drop with such long intake tubes?
No, if the pipes were 100' long there would be but we are only talking a few extra feet and we size the charge air tubing so that it will flow without a large pressure drop. We typically will get about 1/4 to 3/4 lb difference between the turbo compressor and the intake manifold, which is nothing compared to the pressure drop across an intercooler. With high boost applications, these numbers will increase slightly.
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Don't turbos have to be really hot to work properly?
Putting a torch to your turbo and getting it hot doesn't produce boost. What produces boost is airflow across the turbine which causes the turbine to spin. If turbochargers required very high temperatures to produce boost, Diesel trucks and Methanol Race cars wouldn't be able to run turbos. However, each of these "Low Exhaust Temperature" vehicles work very well with turbochargers when, like any turbo application, the turbocharger is sized correctly.
In a conventional, exhaust manifold mounted turbocharger system, the extra heat causes the air molecules to separate and the gas becomes "thinner" because of the extra space between the molecules. This extra space increases the volume of air but doesn't increase the mass of the air. Because the volume is higher, the velocity of the gas has to be higher to get it out in the same amount of time.

By mounting the turbo further downstream, the gasses do lose heat energy and velocity, however, there is just as much mass (the amount of air) coming out of the tailpipe as there is coming out of the heads. So you are driving the turbine with a "denser" gas charge. The same number of molecules per second are striking the turbine and flowing across the turbine at 1200F as there is at 1700F.

Front mounted turbos typically run an A/R ratio turbine housing about 2 sizes larger because the velocity is already in the gasses and the volume is so big that the turbine housing must be larger to not cause a major restriction in the exhaust system which would cause more backpressure. With the remote mounted turbo, the gasses have condensed and the volume is less, so a smaller A/R ratio turbine housing can be used which increases the velocity of the gasses while not causing any extra backpressure because the gas volume is smaller and denser.

Sizing is everything with turbos. There is more to sizing a turbo for an application than cubic inches, Volumetric Efficiency, and RPM ranges. A turbo must also be sized for the exhaust temperatures. A turbine housing sized for 1700F gasses would have lag if the gasses were 1200F. This is why turbo cars have lag when they are cold and not warmed up yet. Both systems work well if sized correctly.
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How much octane do I need to run a turbocharger?
We recommend running Premium gasoline on vehicles that are running 5 to 12 psi.
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What about ground clearance with the turbo down low on Camaro?
Ground clearance hasn't been a problem as all of the kit sits higher than the stock equipment. The lowest areas are near the wheels which give it added clearance going over bumps.
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What is the difference between a Supercharger and a Turbocharger?
First of all, there are a couple different types of superchargers (positive displacement and centrifugal). The most popular these days seems to be the centrifugal supercharger which is basically the same design compressor as a turbocharger compressor. These compressors both increase in airflow and efficiency with impeller RPM's. (Which basically means that doubling the impeller RPM doesn't double the airflow, it increases the air flow exponentially.) So in the case of the supercharger, where it is directly run from a belt and pulley attached to the crankshaft which ties impeller RPM in a direct ratio to crankshaft RPM, the boost increases linearly with engine RPM.
Example: If you want to run maximum boost of 8 psi, you would gear the drive pulleys to produce 8 psi at maximum engine RPM. Lower RPM's would produce less boost linearly. I.E. 8 psi @ 6000rpm, 5 psi @ 4500rpm, 3 psi @ 3000rpm, and 2 psi @ 2500rpm.) Thus, maximum boost is only attained at maximum engine RPM which only lasts for a fraction of a second then when the engine shifts to the next gear and the RPM's drop back down, so does the boost which then builds up again with increasing engine RPM's.

Supercharged engines produce good "maximum rpm" dyno numbers. Don't be fooled by maximum dyno numbers. Unless you have a "Snowmobile Clutch" in your vehicle which allows your engine to stay at peak RPM all the way down the track, what you need is "Usable Power" which comes from sustained boost levels across the entire RPM range. This is where the Turbocharger outperforms the Supercharger.

By using exhaust gasses to drive the turbocharger you gain two benefits: First is that you don't pull Horsepower off of your crankshaft to drive the compressor (Just like you wouldn't replace your electric fan with a large "belt driven" fan or run your A/C down the track because these devices take Horsepower to run as does a Supercharger compressor capable of pumping 50 pounds of air per minute @ 8 psi). Secondly, since the turbocharger is driven by exhaust gasses, the more air the turbocharger puts into the engine, the more exhaust gasses the engine produces, which in turn produces more turbocharger RPM's and air discharge or "Boost". So, to sum it all up, the turbocharger can go from literally "No Boost" to "Full Boost" in a fraction of a second because of the compounding effects of the Compressor Efficiency increasing with impeller RPM's and the compounding effects of the Exhaust Gas increasing exponentially with increasing Boost.

So if you are only concerned with Peak Dyno Numbers the supercharger does produce good "Peak" numbers, but if you want "Full Boost" across a broader RPM range along with those high "Peak" Dyno numbers. The Turbocharger is a better solution.
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Is their any way I could upgrade once I build a shortblock to handle more boost or will I have to buy an entire kit again?
That is the beauty of the turbocharger. If the engine is built to handle it, power can be gained by simply turning up the boost. The turbo kit does not need to be upgraded. However, there are several turbocharger upgrade options which will be more efficient at higher boost levels. The stock turbo is capable of 15 psi boost with some loss in efficiency. We recommend putting on the turbo that best suits your end result goals from the start of your project. This will remove the need for a turbo upgrade later. Then when you are ready for higher boost, just flip the switch on our dual stage boost controller to "HI" and your upgrade is that easy.
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If I want to run higher boost will I need a bigger wastegate?
Running higher boost doesn't require a larger wastegate, in fact in most situations running lower boost requires a larger wastegate than high boost applications. The wastegate flows exhaust out to lower the boost level. The lower the boost requirements, the more exhaust has to flow through the wastegate valve. Running higher boost will require a stiffer wastegate spring or the use of a boost controller. Our Electronic Dual Stage Boost Controller works very well and gives you the option of Hi or Low boost at the flip of a switch.
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How does your dual stage boost controller work?
The electronic dual stage boost controller lets your wastegate operate normally on the "low" setting on the switch. When you flip the switch to "high" the system adds pressure to the other side of the wastegate diaphragm. You can choose how much pressure is added, 0-5 psi or 0-15 psi. The "high" setting is adjustable and once set at your predetermined amount, will give you that much more boost above the "low" setting. If your wastegate is 5 psi, you'll run 5 psi on the low setting. If you set your controller to 3 psi, when you flip the switch to "high" you will have 8 psi boost.
This system can also be used to "arm" the methanol injection or water injection system so that it only runs on "high" when you need it and doesn't run out of fluid driving around town. System can also be set up so that when the methanol system isn't working (if it runs out of fluid) the boost can be defaulted back to "low" boost as to not damage the engine.
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Will a bigger cam make more power with a turbo?
Cam choice in turbo applications is critical. In many cases, a stock cam will work better than a typical "race cam" that would work well with an aspirated engine. What you want to avoid is the "intake and exhaust valve overlap". This is the time that the exhaust and intake valves are open at the same time. In aspirated engines, this theory facilitates the scavenging of all burnt exhaust gasses from the cylinder after the power stroke so that an "uncontaminated" and 100% burnable charge fills the cylinder on the next cycle which produces maximum power. Some of this condition can be tolerated with supercharged applications as it merely blows some of the boost out with the exhaust. However, on turbocharged applications (many people believe that the boost also is just blown out with the exhaust) however, the opposite is truer to the case. With exhaust pressures sometimes exceeding boost pressures, the exhaust can flow into the cylinder and into the intake manifold during this overlap time which contaminates the intake charge, decreases HP, and can cause pre-ignition as well. Also, most cam applications begin flow at .050" of valve lift. On forced induction systems, there can be substantial flow below this amount of lift because of the higher pressures behind the valves.
So, if in doubt go smaller on your cam rather than larger. Go wider on lobe separation angles (114 degrees is usually safe) Smaller on durations (stick around 220) and check with the cam manufacturer to make sure that it is a good "turbo" cam and not just a generic supercharger/turbo cam. A good option is to install a set of higher ratio roller rockers on your stock cam. Better pushrods and stiffer valve springs will help as well because boost and cylinder pressures will be way higher than stock. Stiffer springs will help close the valves against the pressure of incoming air and stronger pushrods will help open the exhaust valve against the increased cylinder pressures.
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What type of coating is on the pipes?
All of the intake pipes are HPC coated. HPC coating is the leader in thermal coatings. They look great and they don't rust. For more information visit - http://www.hpcoatings.com/
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Aren't the stock manifolds and exhaust system restrictive?
For certain normally aspirated or supercharged systems, stock exhaust is somewhat restrictive and can cause backpressure in the system and rob HP. However, with turbocharged applications, the turbocharger is the biggest restriction in the exhaust system. All of the exhaust gasses (except the ones that are vented out the wastegate) pass through the turbine housing. The inlet hole in the turbine housing is about 2"x3", however, as it scrolls around the housing it gets smaller and smaller causing the exhaust gasses to increase in velocity. At the smallest point where the gasses exit and hit the turbine wheel, the hole is no bigger than about 1" in diameter. This tiny hole will create backpressure in the entire exhaust system prior to the turbo and clear back to the exhaust valves.
So sticking larger diameter pipes and high flowing headers doesn't make lots of sense when you have a 1" tailpipe hole. These additions probably won't hurt, but the money would be far better spent elsewhere. Our Turbo Camaro put down 522 RWHP and 620 RWTQ through the same restrictive exhaust manifolds and I-pipe that came stock on the car. Turbocharging is very different than Supercharging or Normally aspirated. That is good news because you don't have to spend the extra money on the exhaust system!
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Will your methanol injection setup work with any turbocharged car?
Yes, our Methanol System is designed to work with any turbocharged, supercharged, or even Normally Aspirated engines. We typically will see 100F intake temperature drops with this system. The Octane requirements are lowered, the cylinder temperatures are lowered, and the exhaust temperatures are lowered. It's all good! We installed our Methanol System on a Supercharged Viper. We lowered his intake temperatures from 220F down to 100F. The extra fuel allowed him to lean out his injector map and the water cooled the cylinder temps down enough to add 4 degrees of ignition timing. He lowered his ET from a 10.8 down to a 10.6. He raised his MPH from 134 to 140 MPH!
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How does your methanol system work?
Unlike many methanol or water injection systems on the market. Ours doesn't just turn on at a predetermined boost level and dump fluid in, causing flooding at lower rpms and part throttle positions and leaning out at high rpms and WOT.
With our Sequential Methanol System, you inject your extra fuel and/or water mixture at the same rate as your stock fuel injectors do. The more throttle you give it, the more fluid goes in. The higher the rpms go, the more fluid goes in. The system is adjustable as to when it kicks on, and also adjustable as to the gallons/minute flow rate, as well as tunable with the Methanol/Water ratio. It is simple to install and easy to adjust and tune for optimum performance. Combine this with our Electronic Dual Stage Boost Controller and set it up to only run on High Boost. You can also set it up so that if the Injection shuts off for any reason, such as it runs out of fluid, the boost controller will default back to low boost. It is a definite "Must Have" for any turbocharged or supercharged vehicle.
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How much cooling is provided by the Methanol system?
The amount of intercooling provided by the Methanol Injection System is somewhat varied by how much methanol you are injecting. Here are results of testing we did on the LS1 Camaro:
At 5 psi without methanol, the turbo outlet temps were 175F and intake temps were 115F which is about 50% efficient.

At 8 psi with the Methanol Injection System running, turbo outlet temps were 225F and intake temps were 70F. This is 94% intercooling efficiency. All this without the cost and installation problems that go along with trying to put a large intercooler into the front of your vehicle.
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Where do you mount the Methanol Injection tank?
The tank can mount just about anywhere. We usually stick it in the rear and mount the pump there also just for better weight transfer. FWD's would probably want it up front though. You don't want it to be exposed to a lot of heat though as the Methanol boils at about 150F. We also have several tank sizes to better accommodate individual needs.
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What intake air temps do you get?
IATs on vehicles with our intercoolers run about 10-20 degrees above ambient under boost. If you are running 5 psi without an intercooler you should see IATs 50 to 70 degrees above ambient under boost.
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Will this system work with my modified stroker and high stall converter?
Yes, the system will work with different engine sizes and converter options. However, we handle these modified cars on an individual basis so that the proper size of turbocharger can be installed with the kit. We have several turbocharger options that we can tailor to suit individual needs without adding extra costs to the kit. We also offer upgraded turbochargers for those who want to get maximum efficiency and HP.
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