TURBOS:
Increased size turbo can flow more air, changed compressor/turbine blades can increase boost response and still flow more air. Rebuilt ones can be cost effective replacements for worn/dead turbos. There are many, many turbo manufacturers, most are able to get you customized rebuilt turbos or a larger
upgrade. The most popular upgrade is usually a 'hybrid' turbo. This uses the stock turbo's housing(making installation a snap) and modifies/changes the compressor/turbine wheels. The intricacies of different turbo options is way beyond the scope of this FAQ. Contact a reputable vendor and explore your options. This is one way to get those massive power increases (50hp+).
BTW -- alot of people these days are going on and on about twin/two turbo charger systems. These provide good off boost response and good power. However any large, upgraded turbo system for most twin sequential turbo cars (i.e. supra, rx7) will invariably switch to ONE big turbo. Why? It is
mechanically much simpler, will flow much better than any two-turbo system, and is MUCH cheaper. For some cars (TT 300ZX, TT Stealths), underhood layout makes this a non-option, but contrary to popular opinion, two is NOT better than one. So when some moron starts going on an on about how wonderful twin turbos are, point out that all high horsepower cars (you know, the Grand Nationals running in the sevens) have ONE turbo. Only babies who need off-boost response need twin turbos. Of course this is what we have nitrous for :)
PRICE: Ranges from quite moderate ($500US) to outrageous ($2000US) +installation
VENDORS: TEC, Turbo City, Jim Wolf Tech, Stillen, GReddy.
CAMSHAFTS: My recommendation is to stay away from this one. I have yet to hear any good stories about the reliability of aftermarket cams in these turbo cars. I have heard of some breaking, ruining
heads. If you do got for it, get the most reputable kind you can find, based on a NEW billets, not reground from stock ones. Go for a mild cam, nothing too outrageous. The ultimate here is to have a custom cam ground to your head/systems exact flow specifications. (Yeah sure, that sounds real cheap!)
PRICE: Probably $400 US for a good sets. (There are 2 BTW)
VENDORS: Nissan Motorsports, Crane Cams(?), Bullfrog Cams(?)
HEAD/MANIFOLD PORTING, POLISHING, REPLACING PARTS: Once again, from what I am told, not very worthwhile. The only thing I would recommend is port matching, that is matching the intake port to the heads to the exhaust ports to the turbo. When Nissan designed the motor, it used what is called a maximum displacement theory. That is, the motor cannot (should not) be bored, stroked or ported. The motor is designed for a specific size, to keep weight and reciprocating masses down. A good condition stock head should easily handle 350-400 hp. The bottom end is nearly indestructible. For those speed freaks: you can buy large race-only heads from Nissan Motorsports, or custom pistons and valvetrain components, but I'm sure they are real cheap :)
HEAD GASKETS(METAL): This is a highly recommended modification. High boost can obliterate the stock head gasket. A good quality metal gasket will make damage due to light detonation a thing of the past, allowing for some leeway during tuning.
PRICE: $200 US parts +installation (8 hrs??)
VENDORS: HKS, Greddy, FelPro
NITROUS: Probably has the worst reputation of all aftermarket components in history. Credited for destroying thousands of engines. Almost all the problems associated with nitrous can be explained by one sentence: NITROUS DOES NOT BLOW MOTORS, IDIOTS WITH NITROUS BLOW MOTORS.
Taking a stock four cylinder motor and expecting it to handle a 150-200hp nitrous[shot] is ridiculous. Like any other modification, nitrous must be well planned and installed correctly. The danger with nitrous is the fact that it can be relatively cheap, so unfortunately 'cheap' people buy it, cheapout on
installing it professionally, and cut corners where ever they can. This is exactly what kills motors. Many people are unrealistic in there expectations; a 100hp stock motor will not handle a 100hp nitrous shot without some serious internal modifications. However a 250hp motor will easily handle a 50-70hp shot, with very little if any internal modifications. All that is required is to maintain a proper Fuel/Air ratio. In essence nitrous is simply a very dense amount of air, which has 37% more oxygen by volume that standard air. When injected into the cylinder heads with an appropriate amount of fuel, this creates much more power. Nitrous is neither flammable nor volatile, it is however stored under extreme pressure (>1000psi) and is very cold (-127'F). Despite what you may hear, nitrous with turbocharging is a fantastic
combination. The nitrous comes on low, providing the off boost response and improving low end torque. It also spools the turbocharger immediately, and since it is so cold it provides some serious secondary intercooling (like 50-75'F). In addition, advanced computer controlled fuel delivery and timing control make a realistic and professional installation practically bulletproof.
Any addition of nitrous must have an additional amount of fuel to maintain the proper F/A ratio. This can either be done with supplemental injectors, increasing flow of the stock injectors or larger injectors. On a turbo car, most nitrous systems are what is called 'wet' systems; that is additional fuel is injected with the nitrous right into the throttle body or intake pipe, and the positive boost pulls the air into the cylinders. The danger with this system is some vehicles may not have the most optimum chamber distribution, i.e. chamber 1 may get lots of it, camber 6 may be very little.
Fortunately the 300ZX turbo has an excellent distribution pattern, all cylinders get equal amounts of flow. For low HP levels (50-100) this 'wet' method can be used, however for higher HP level (100-150HP) you will NEED larger injectors and probably an upgraded fuel pump; the all-out way of doing nitrous is to have your nitrous direct-injected into your intake manifold/cylinders (direct port injection) with larger injectors providing the fuel. This is only necessary for those really crazy levels(150+HP). Note here that using high boost (12psi+) with full nitrous is a BAD idea, the stock pump cannot feed enough fuel for much over 300 HP. Many good turbo nitrous systems are set up to use full nitrous when boost is below some preset level (7psi) then gradually tapers it off as the car approaches full boost.
BTW -- a 50HP nitrous will feel like a lot more (due to the secondary intercooling and instantaneous turbo spool). And no joke people, it will be an increase of 50 Rear Wheel horsepower.
PRICE: ~ $500 US for a 50-70hp shot. Probably the least expensive way to get 50hp, installation is fairly straight forward, although the system will need some calibration. I recommend having it professionally
installed and calibrated($200US).
VENDORS: NOS, CompuCar, TopGun
THROTTLE BODY: In practice a good idea, although I cannot see why it would make a difference on a car with a stock sized intake pipe. The throttle body is ~50mm, the pipes are ~50mm, so changing the body size will probably have no effect. Of course if you need to run really high boost levels, and have >50mm piping, by all means, change the throttle body. Otherwise, it doesn't seem to make much sense, it is not a restriction point. In addition, like changing your exhaust pipe diameter, a larger throttle body may result in some low end torque loss.
PRICE: ~ $250 US on an exchange basis.
VENDORS: Bullfrog... can't think of any others, anyone?
MASS-AIR: Same as above for throttle body, unless you are running beyond the calibrated flow rate for the Mass-Air (around 350), it makes no sense to change it. But beyond 350, it might be ecessary.
PRICE: ~ $250 US on an exchange basis.
VENDORS: I've seen it for sale in NOPI.. No idea whatsoever who makes it, anyone?
ELECTRIC COOLING FANS: The stock cooling fan runs off a clutch which is driven by the crankshaft. This is a cause of some considerable drag, and certainly is not the most efficient way of doing it, as the fan is on all the time. A switch to a high capacity electric fan could result in some considerable increases in power, in the neighborhood of 10-15HP at high Rpm's. The fan should be triggered by a water temp sensor, so it will only turn on when necessary. In fact, I really doubt the fan is useful except when idling. When in motion, the fan is basically pointless.
Note here that the draw rating of a large fan will be around 15amps. This can cause some serious strain on a poor condition alternator/charging system. Make sure your alternator is up to snuff.
PRICE: ~$100-150 for a good PULL type fan (works better), several hours custom installation time
VENDORS: Torando Electric Fans..... Hmm... any others?
UNDERDRIVE PULLEYS: Basically changes the size of the pulleys on the power steering pump, A/C condenser, alternator. Would probably net you a few horsepower at high RPM's, but I don't think it is
worthwhile. Do not underdrive the stock alternator (it is strained as it is). The added strain on the PS pump and condenser could kill these not-cheap-to-replace units. Not recommended.
PRICE: ~$150-200 ?? (Not sure)
VENDORS: No idea whatsoever. Anyone?
REMOVING A/C SYSTEM: Yet another possibility for a few extra horsepower, along with a lot of added weight. I would never do it however, just for the fact that it would compromise my enjoyment of the car.
I want it all, a 12 second quarter mile WITH the air conditioning on.
CYLINDER HEAD TEMP SENSOR GAMES: Playing with the cylinder head temperature sensor can fool the computer into thinking the car is 'cold' and thereby enriching the mixture. This can be done with a resister being placed inline with the sensor wire. This is NOT a good idea, it will cause your car to perform incorrectly, run rich all the time, gunking everything up. These is one of those kludge fixes. BTW -- If you car is running rich and has a poor cold idle, check to see if someone has already done this little trick. If the resister is there, yank it out and reattach the wire. This will immeasurably improve your cars demeanor.
UPGRADED IGNITIONS: Some people say that this is junk, some people swear by it. If the Z car had a poor ignition system I would recommend it, but the stock Z ignition is very good. There is really no need
to change it, unless your experiencing high-boost/nitrous misfires. If so, go with a good quality ignition system, (Jacobs, MSD), just don't expect any miracles. The only thing it will give you for certain is improved fuel economy... which in itself might make it worthwhile.
SPARK PLUGS: Here's another maybe spot. I have really yet to see any difference in any good spark plug performance. Buy a good set of non-platinum plugs (platinum plugs do NOT work well with a turbo
motor). Contrary to popular belief platinum plugs do not perform better than copper one, in fact the reverse is true; platinum is not as good a conductor as copper, it's main attraction is that it doesn't wear as fast. I recommend frequent (1/yr.) plug changes with good quality NGK plugs. If you are running high boost, switch to a one level colder plug, this will help prevent detonation. Stay away from any miracle plugs, with fancy split electrodes or dumb names.
DIRECT FIRE IGNITIONS COMPUTERS: The ultimate in coordinated fuel, timing, boost and nitrous control. These advanced, fully programmable computers are the ultimate in technology. Their price, complexity, installation and tuning are not for the faint at heart. Beyond the scope of this FAQ.
PRICE: LOTS! Many options, varying abilities.
VENDORS: Haltech, Motec, TEC II, ACCELL, Crane Cams and some others
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