Androo26

Im using a TD04 with a smaller than stock exhaust housing machined to suit. Exhaust housing is a 4cm item from a 99 model Forester TF035 Works very well. After doing back to back data logs I made a graph of it. (4E engine) 4cm housing machined to suit the larger TD04 exhaust wheel.

There is no real reason why it ever needs to be as rich as 10-10.9 unless you are seeing extreme intake temps where extra fuel can assist in cooling the air temps. 11.2 - 12.2 will be rich enough. Just remember that not every cylinder is running at the displayed a/f ratio ... Its only an average of all four. Some cylinders may be leaner than others. And you dont want it to go pop!!

I got a datalogged acceleration run in tonight and here are the results compared to the last turbo setup. RPM Range 4cm TF/TD 4cm TD04 2-3k 16 15 3-4k 11 11 4-5k 12 10 5-6k 15 15 Total logs 54 51 The lower amount of logs means the faster it went through that rev range. 4cm TD04 wins, Still good at 3-4 but even better at 4-5...... I suspect wind drag comes into it at th

I managed to get a couple of boost logs but as I was about to do a few acceleration logs my laptop battery died. Any ways here is the info..... exact same test as previous foot to the floor from 2k, gain set at 98 , boost cut at 14.5 RPM BOOST 2000 2 psi 2120 3 psi 2380 4 psi 2560 5 psi 2620 6 psi 2880 8 psi 3210 10 psi at this point the previuos turbo was at 14 psi already 3320 11 psi 3380 14 psi the boost builds so quickly at this point it doesnt even register 12, 13 psi

4cm TD04 is on and been driven for the first time......... The first thing me notices, when giving it some shtick was that it hit boost cut almost imediatley wich was set at 14.9psi. Ok back the duty cycle down a couple of numbers from 65 to 63. 63 with the old turbine wheel would take boost out to 12 psi.... Still boost cut. I finally arrived at a stable 14 psi using 59 as the duty cycle number. Why did this happen and what does it mean. Well i

Tommorrow Im removing the 4cm TF/TD hybrid to make way for the 4cm TD04

I can highly reccomend the GFB G-Force 2 Boost controller http://www.gfb.com.au/products/boost-controllers/electronic-boost-controllers/g-force-ii-electronic-boost-controller-by-gfb

4CM TD04 is born !!!! It arrived back from GCG today. See how much it has been opened up to flow more The size difference between the TF and TD turbine wheels.

I was supposed to be on the dyno this afternoon testing this 4cm housed TF/TD hybrid ive been running. But due to circumstances beyond my control I wont be doing it now. So I will compare data logs instead. I have counted how many times it logged per 1000 rpm Starting at 2K and going to 6K. It logs at a set times per second, so im really kind of timing how long it takes to get from 2-3 . 3-4 , 4-5 and so on. Acceleration test. Ok so the 6cm exhaust housing was first and the 4cm one was next. 2-3 3-4 4-5 5-6k ranges 17 13 12 19 logs per o

The answer to that is anyones guess really.... you would just have to try it and see. The Kinugawa product looked to be made to a high quality standard.... I have yet to hear any bad reports... only good things.

I have a Kinugawa TF/TD hybrid (non billet wheel) on mine at the moment. non forged 4efe. Has made 154kw @ 14psi very happy with it. In the near future ill be trying a TD04 with the smaller 4cm 99 forrester exhaust housing.

Something I noted looking at the Kinugawa Turbo site is the HP rating difference between their TF035 and their TD04 being 33 HP...... with the only difference being the Exhaust wheel sizes. With 5mm and 6mm being the differences in diameters..... so potentially I could be picking up some horse powers due to better turbine wheel flow...... we will see !!

Sorry Collin I missread you question... Ive measured the TF035HM I have here and the compressor wheel measures at 51mm max 39.5mm min diameters. A TD04l compressor wheel measures at 56 and 40.7mm... So a bit smaller than a 13T As far as what its called... i dont know. To my knowledge the Forrester TF035 only came in one variation.....as far as the compressor size goes.

Just the run of the mill TD04L-13T Id love to see with this turbo what the max from a 4cm housing is !!

Ive picked up another 4cm TF035 for 50 bucks .... Im getting this smaller 4cm housing machined as we speak to suit a WRX TD04......... Same as a normal TD04 but with a 4cm housing instead of a 6cm....... Turbine and compressor wheels remain TD04 items... Just a different combo to test out.

Are you talking about the TEIN S Tech springs ?? 57mm Front 50mm Rear lower than Standard. If so you are in luck as I just fitted some to my EP91 they sit pretty low just how I wanted it to . Previously had 30mm King Springs... worked great but not low enough. 15x6.5 wheels

Might just add this here as it gives a quick guide to roll center adjustment and why The problem I see with the spacers is that you are not actually lowereing the pivot point. See each line is drawn from the pivoting point. All the spacer does is change the angle of the arm. Look at the small pic aboce the ball joint base is longer therefore the ball joint pivot is placed further. What the Starlets need is a ball joint that has a longer shaft.

Data logs are in .... and the difinitive answer to "what is the spool difference between th 4cm* and 6cm* turbine housing at 14 psi" is....... 200 rpm. Here is a graph ive made up compareing the 2. However this may not seem like much at the peak boost pressure..... but the graph tells the story......on the road its much more punchy around the 3000 rpm mark and quicker to respond to throttle inputs especially when up around the 4K mark (twisty roads ect)

Ive been hard at it over the last couple of afternoons and its now back together except for the front bar and radiator cap. its been started and run upto temperature... Il do the rest in the morning. An engine bay view from high atop a ladder.

Upon further investigation ive run into a few minor alignment issues. The 4cm housing seems to be 2-3mm shorter from top to bottom, as per the pics. To combat this ive knocked up a 3mm copper spacer gasket. Hopefully this will see everything line up again..... I didnt think that it would all be a perfect swap over.

The current turbo coming off to fit the smaller rear housing. I can confirm that the Subaru housing fits the Kinugawa turbo. Sitting back on the manifold.... Hopefully I can get it all back together tomorrow

You dont have to weld it.... you may want to use it again or on another project. Here is what I did. Weld a nut on the back side of the flange and use a bolt and locking nut to hold the door closed. Here is the external gate setup that I made for some inspiration.

First up appologies for the long time between posts.... but here is somthing to ponder Tonight I did some data logs to see how quick I could get this curent turbo to spool up by setting the gain control to 95% This is like pulling the waste gate line off.... only safer beacuse it has a boost cut set at 14.5psi . The gate will stay completly closed untill 95% of the target boost (14psi) is met. 13.3 psi. Because it ramps so quickly it spikes to 14.5 and cuts boost back to 6 psi straight away...... Its quite amazing how well it does it and can save you from destroying an engine.

I took some pics of the inside of each turbine housing just out of interest. 6cm* 4cm* You can really see how it necks down a lot in the smaller housing, about 1/3rd less id say... Probably more of a restriction than the 35mm turbine exducer. Wait and see.

Turbo goose - the turbo im currently running is basically a 6cm TF035 with TD04 front cover and compressor wheel from a WRX. I plan on swaping to the 4cm exhaust housing and testing the differences. No modifications to the flanges ... just all stock subaru and kinigawa stuff.