Brettus turbo 111 (the ultimate Renesis turbo ?)
#1901
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I’m also interested to see people running the renesis with an efr 7670/8374/8474. I haven’t seen any at all. I’m on my way with a 7670 but I’m in baby stages getting a motor built but have the turbo. Backwards I know but such is life
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RotaryMachineRx (06-12-2019)
#1902
I initially thought the 7670 would be on the small side , but I've changed my mind on that. It's probably the best possible turbo for the Renesis ...... look forward to see how you get on with it . I presume it will be top mount . Custom manifold or ?
Last edited by Brettus; 06-11-2019 at 07:35 PM.
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madrotor (07-04-2019)
#1904
Interesting design diference between these two turbine housings : the larger 1.06 has a much smaller nozzle size where it directs air onto the turbine .The smaller 1.01 directs air to the entire width of the inducer diameter where as the 1.06 only to about half that width. My thought was it could be something to do with getting the air to enter all around the circumference.
1.06 hosing
1.01 housing
Good news is ...it is looking like I can make the 1.06 fit with some minor modifications. Here is the flow chart. It will be operating in the 2.0-2.25 area of this chart which is showing a significant difference vs higher in the PR range.
1.06 hosing
1.01 housing
Good news is ...it is looking like I can make the 1.06 fit with some minor modifications. Here is the flow chart. It will be operating in the 2.0-2.25 area of this chart which is showing a significant difference vs higher in the PR range.
Last edited by Brettus; 06-12-2019 at 06:54 PM.
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RotaryMachineRx (06-13-2019)
#1905
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I know of at least two 8374 installs going on at the moment but it seems to take forever. Turblown was doing one of them.
I initially thought the 7670 would be on the small side , but I've changed my mind on that. It's probably the best possible turbo for the Renesis ...... look forward to see how you get on with it . I presume it will be top mount . Custom manifold or ?
I initially thought the 7670 would be on the small side , but I've changed my mind on that. It's probably the best possible turbo for the Renesis ...... look forward to see how you get on with it . I presume it will be top mount . Custom manifold or ?
#1907
Old core with temporary baffle in place best result: IAT rise and RPM (at 13psi and 22C ambient) Vs Time .
New core temp rise (13.5psi and 14C Ambient)
A nice improvement (6deg.C reduction) although ambient temp is lower so perhaps not apples to apples comparison.
Last edited by Brettus; 06-17-2019 at 10:30 PM.
#1908
Results of 1.06 housing - again very difficult for accurate comparison as logs on 1.01 were done at higher ambient temp (21C vs 14C)
*Turbine backpressure down slightly to 21psi at 13.5psi boost
*Lost about 250rpm of spoolup 14psi in 3rd now at 4150
*Low down torque about the same despite loss of spoolup
*Midrange torque is very impressive now at this boost cracking 300lbft
*Peak maf rpm didn't change at all (sits at around 7300rpm)
*Can now hold 6psi all the way to 8000rpm on 6psi WG spring. Previously it would jump to over 9 from about 7000rpm
*Turbine backpressure down slightly to 21psi at 13.5psi boost
*Lost about 250rpm of spoolup 14psi in 3rd now at 4150
*Low down torque about the same despite loss of spoolup
*Midrange torque is very impressive now at this boost cracking 300lbft
*Peak maf rpm didn't change at all (sits at around 7300rpm)
*Can now hold 6psi all the way to 8000rpm on 6psi WG spring. Previously it would jump to over 9 from about 7000rpm
Last edited by Brettus; 06-17-2019 at 11:11 PM.
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jcbrx8 (06-19-2019)
#1913
Took a decent drive on some twisty roads yesterday . The changes have worked really well . IATs are well under control now. Didn't see anymore than 11 degrees above ambient on the logs after 20 mins of hard driving under boost. Response feels just as good as it was with the 1.01 , midrange is def. improved . Top end .... maybe a few hp but nothing exciting.
Not content to leave well enough alone , I fitted larger injectors and converted to E66 which I have calculated is the most ethanol I can run with current injectors/pump to support 450whp ish. Initial test show some minor gain from doing this.
Going to try out my dump pipe later as well.
Not content to leave well enough alone , I fitted larger injectors and converted to E66 which I have calculated is the most ethanol I can run with current injectors/pump to support 450whp ish. Initial test show some minor gain from doing this.
Going to try out my dump pipe later as well.
#1914
Curious, do you see any ignition timing pulled in that dip? I also see that dip in my logs at times and it seems to correlate with timing getting pulled...
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#1917
Tried out the screamer pipe . Looks like it makes same power at 14psi as without at 15 so a step in the right direction. Well into 400s now. Sound is ridiculous though so it def. wont be permanent.
Also dropped ethanol content back to E60 to give a bit of headroom on the injectors .
Also dropped ethanol content back to E60 to give a bit of headroom on the injectors .
#1919
Hybrid Greddy Boosted
I like where you're heading with this. So here's a question, is the performance increase because:
1. the WG sees less back pressure?
2. the down pipe sees less back pressure because there's no WG exhaust in the exhaust pipe to contend with?
If it's 1, then a bigger waste gate to reduce the pressure drop from manifold into dump pipe.
Starting to wish I'd persisted with getting my greddy manifold working properly with the eWG welded on. I didn't spend the time getting the manifold to seal correctly so didn't see the potential benefits of the t25 housing with and without the eWG. Could have been some good performance improvement.
1. the WG sees less back pressure?
2. the down pipe sees less back pressure because there's no WG exhaust in the exhaust pipe to contend with?
If it's 1, then a bigger waste gate to reduce the pressure drop from manifold into dump pipe.
Starting to wish I'd persisted with getting my greddy manifold working properly with the eWG welded on. I didn't spend the time getting the manifold to seal correctly so didn't see the potential benefits of the t25 housing with and without the eWG. Could have been some good performance improvement.
#1921
This is at a tad over 14psi ... dmp pipe def. makes a difference! See 15psi log above . Low down is less torque but big improvement up top . Same mass flow numbers .
Strange thing is .....with all the noise from the dump pipe .....it feels slower ! Something about that damn awful noise dulls the other sensations .
Boost log for above:
Strange thing is .....with all the noise from the dump pipe .....it feels slower ! Something about that damn awful noise dulls the other sensations .
Boost log for above:
Last edited by Brettus; 06-27-2019 at 12:18 AM.
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madrotor (06-27-2019)
#1922
Registered
Haven't been able to get motivated to do it yet .
The dynamics of my manifold design work in mysterious ways and it took me a long time to understand it . When I tried the smaller AR the minimal effect on spoolup was offset by lower torque , so I got less power per psi at both low rpm and high rpm.
With the larger AR I'm hoping for a small reduction in spoolup (14psi by 4000rpm vs current 3800) without a corresponding drop in torque. Up top I'm hoping to see the maf peak rpm go up 200-300 rpm which should give me an extra 20-30whp. All the other 'upgrades' I've done have had the effect of putting more air through the wastegate and moving the maf peak rpm down (producing the same whp but at a lower rpm) . Getting more air through the turbine SHOULD have the opposite effect . Fingers crossed.
As to why that happens ..... my theory is that the path through the manifold tubes that feed the turbine is way less restrictive/turbulent than that through the wastegate , so more air through the turbine is always going to be more efficient and make more power than more through the wastegate.
The dynamics of my manifold design work in mysterious ways and it took me a long time to understand it . When I tried the smaller AR the minimal effect on spoolup was offset by lower torque , so I got less power per psi at both low rpm and high rpm.
With the larger AR I'm hoping for a small reduction in spoolup (14psi by 4000rpm vs current 3800) without a corresponding drop in torque. Up top I'm hoping to see the maf peak rpm go up 200-300 rpm which should give me an extra 20-30whp. All the other 'upgrades' I've done have had the effect of putting more air through the wastegate and moving the maf peak rpm down (producing the same whp but at a lower rpm) . Getting more air through the turbine SHOULD have the opposite effect . Fingers crossed.
As to why that happens ..... my theory is that the path through the manifold tubes that feed the turbine is way less restrictive/turbulent than that through the wastegate , so more air through the turbine is always going to be more efficient and make more power than more through the wastegate.
#1923
No , the peak maf rpm didn't change at all. It seems like I'm playing a balancing game ....dancing around the point where the engine can take no more. Hence the reason why I'm dumping boost shortly after peak maf rpm.
Last edited by Brettus; 06-27-2019 at 03:27 PM.
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jcbrx8 (06-29-2019)