GT37 How does it size up to rotary?
#1
GT37 How does it size up to rotary?
I am interested in adapting a Garrett GT37 VGT off of a 2003 Ford Powerstroke diesel 6.0 liter for my car.
But, how would it size up to the rotary?
Looks like it is-
52 trim compressor wheel w/ 54.8mm inducer, 76.0mm exducer in a .58 compressor A/R
84 trim exhaust wheel w/ 66.4mm exducer, 72.5mm major dia. in an undivided .90 A/R housing- but w/ variable angle vanes in the housing that affect the funtional A/R for quick spool up and low restriction as needed.
I found a source of used units for ~$300 each or discounted for more.
I know it is going to be some work to get the hydraulic VGT vanes to operate. I was thinking a master cylinder actuated by a linear motor or cammed stepper motor. I work at an industrial electric control manufacturing facility so one of the friendly engineers could help me w/ the control aspect.
Also, it is a bummer that it is non-divided. I figure a long long runner manifold and that VGT will more than make up for the non-divided housing.
Also, even the very robust stainless vanes and shafts may sieze up as the cooled EGR diesels run only ~850 deg exhaust temps. I will include my 60mm WG in the design and my Pop-off valve incase of VGT failure.
Only thing bugging me now is that it looks like the GT37 compressor flows less than the 60-1 HiFi I have now?
Didn't sound right to me but the source I found stated 50 Lb/min for the GT37 and 63 Lb/min for the T04B 60-1 HiFi?
I am running 17psi on the 60-1 HiFi and love the power- don't want to take a step down. Or would the added efficiency of the GT series compressor allow one to up the boost w/ same safety factor.
Any input appreciated. If I get one of these working it could be our new hot set-up.
If that VGT really works we are looking at twin GT37s Ha ha, probably not.
I have heard these turbos are LOUD from the Powerstroke boys. I guess you hear the turbo whine blocks before you hear the diesel engine on these trucks once you get an open intake/exhaust.
Plus the VGT provides enough exhaust backpressure when closed down that you get compression braking. Woo hoo Jake brake for the RX-7... Well, it would be nice to get a little more engine braking for throttle lift rotation in cornering corrections.
But, how would it size up to the rotary?
Looks like it is-
52 trim compressor wheel w/ 54.8mm inducer, 76.0mm exducer in a .58 compressor A/R
84 trim exhaust wheel w/ 66.4mm exducer, 72.5mm major dia. in an undivided .90 A/R housing- but w/ variable angle vanes in the housing that affect the funtional A/R for quick spool up and low restriction as needed.
I found a source of used units for ~$300 each or discounted for more.
I know it is going to be some work to get the hydraulic VGT vanes to operate. I was thinking a master cylinder actuated by a linear motor or cammed stepper motor. I work at an industrial electric control manufacturing facility so one of the friendly engineers could help me w/ the control aspect.
Also, it is a bummer that it is non-divided. I figure a long long runner manifold and that VGT will more than make up for the non-divided housing.
Also, even the very robust stainless vanes and shafts may sieze up as the cooled EGR diesels run only ~850 deg exhaust temps. I will include my 60mm WG in the design and my Pop-off valve incase of VGT failure.
Only thing bugging me now is that it looks like the GT37 compressor flows less than the 60-1 HiFi I have now?
Didn't sound right to me but the source I found stated 50 Lb/min for the GT37 and 63 Lb/min for the T04B 60-1 HiFi?
I am running 17psi on the 60-1 HiFi and love the power- don't want to take a step down. Or would the added efficiency of the GT series compressor allow one to up the boost w/ same safety factor.
Any input appreciated. If I get one of these working it could be our new hot set-up.
If that VGT really works we are looking at twin GT37s Ha ha, probably not.
I have heard these turbos are LOUD from the Powerstroke boys. I guess you hear the turbo whine blocks before you hear the diesel engine on these trucks once you get an open intake/exhaust.
Plus the VGT provides enough exhaust backpressure when closed down that you get compression braking. Woo hoo Jake brake for the RX-7... Well, it would be nice to get a little more engine braking for throttle lift rotation in cornering corrections.
#6
Moderator
iTrader: (3)
Join Date: Mar 2001
Location: https://www2.mazda.com/en/100th/
Posts: 30,900
Received 2,643 Likes
on
1,872 Posts
the gt37 looked like its a little smaller than an o trim, which is a little larger than stock, so it looks like a good upgrade for the s5 based turbo.
Trending Topics
#9
Re-engineering everything
iTrader: (2)
So, here is a 35/40:
and the GT40:
(Why are people running this turbo? Peak HP only...)
and the GT37
It looks like the 37 is well-sized for the 13B. Note that the compressor map doesn't change too much based on A/R. It really makes me wonder why no one has made just a straight GT37 kit for the FD, but I like the VGT idea much more.
-ch
and the GT40:
(Why are people running this turbo? Peak HP only...)
and the GT37
It looks like the 37 is well-sized for the 13B. Note that the compressor map doesn't change too much based on A/R. It really makes me wonder why no one has made just a straight GT37 kit for the FD, but I like the VGT idea much more.
-ch
#10
Thanks for posting all those maps Hyperion.
That GT37 compressor maps w/ GT37 76mm, GT37 82mm and T04 76mm was the only one I found as well when searching for GT37.
So hard to read I didn't bother attaching it
But, yeah- it slots in nicely right between the GT35 and GT40. I wondered why nobody does a straight GT37 swap on single turbo as well since there is always debate whether to go w/ limited HP of GT35 or lag of GT40.
If the VGT can be adapted there is no reason one couln't swap in the GT40 compressor section onto the GT37 VGT turbo, right?
That GT37 compressor maps w/ GT37 76mm, GT37 82mm and T04 76mm was the only one I found as well when searching for GT37.
So hard to read I didn't bother attaching it
But, yeah- it slots in nicely right between the GT35 and GT40. I wondered why nobody does a straight GT37 swap on single turbo as well since there is always debate whether to go w/ limited HP of GT35 or lag of GT40.
If the VGT can be adapted there is no reason one couln't swap in the GT40 compressor section onto the GT37 VGT turbo, right?
#11
Moderator
iTrader: (3)
Join Date: Mar 2001
Location: https://www2.mazda.com/en/100th/
Posts: 30,900
Received 2,643 Likes
on
1,872 Posts
nobody seems to list the gt37, that might be ones reason
#12
Re-engineering everything
iTrader: (2)
BLUE: You're right, although I do like the surge line on the 76mm GT37. It's interesting that the maps for the other turbos go out only to 65%, but the GT37 has data out to 60%. That said, I think with intercooling you could push 60lbs through the GT37, good for close to 475 RWHP.
I'm most concerned about finding a solution to turbo control. How do they do it on the Ford diesels?
-ch
I'm most concerned about finding a solution to turbo control. How do they do it on the Ford diesels?
-ch
#13
Rotary Enthusiast
iTrader: (31)
Originally posted by BLUE TII
since there is always debate whether to go w/ limited HP of GT35 or lag of GT40.
since there is always debate whether to go w/ limited HP of GT35 or lag of GT40.
The 35R has been shown to make 400-450RWHP and is claimed by "those in the know" to be one of the best spooling turbo's on the market.
#14
Just in time to die
iTrader: (1)
There is very little lag on the 40R when compared to the 35R also the 37 is nonBB, the maps you chose for the 35/40 are wrong also. My question is other than taking up the challange of making it work and being a little unique(both good reasons) why? Price? Both the 35R and 40R are great turbo's for the 13B.
-Sean
-Sean
#15
I'm most concerned about finding a solution to turbo control. How do they do it on the Ford diesels?
This is definitely going to be the hardest part of this project.
From skimming over the Ford 6.0 manual it appears that the vanes are hydraulically actuated from a "high pressure oil system" that is engine driven, though seperate from the standard engine lubricating "low pressure oil system".
There is a small valve that is electronically controlled to vary the oil pressure to the piston that actuates the variable pitch blades.
I hope it is a push/pull arrangment so that there is less chance of it sticking. I think the chances are good based on Garretts earlier experiences w/ the t25 VGT that only used spring and boost pressure (like standard WG actuator) to move the vanes- had a real problem w/ sticking.
I will know when the turbo gets here- I bought the 1st last night.
In the Ford the turbo is in the low backpressure/slow spool position under light cruise conditions and moves to high backpressure/quick spool as soon as you dip into the throttle. I imagine it is very much like the way a car w/ O2 sensor goes from closed loop at cruise to open loop maps w/ some throttle change.
Then as the desired boost is reached the vanes are varied toward the low backpressure position until the boost is stable. No wastegate needed, of course.
I would probably incorporate a "race" switch that when armed would keep the turbo in the quick spool state as long as boost was under max. This would allow for awsome boost response- though fuel mileage and EGTs would suffer.
This is definitely going to be the hardest part of this project.
From skimming over the Ford 6.0 manual it appears that the vanes are hydraulically actuated from a "high pressure oil system" that is engine driven, though seperate from the standard engine lubricating "low pressure oil system".
There is a small valve that is electronically controlled to vary the oil pressure to the piston that actuates the variable pitch blades.
I hope it is a push/pull arrangment so that there is less chance of it sticking. I think the chances are good based on Garretts earlier experiences w/ the t25 VGT that only used spring and boost pressure (like standard WG actuator) to move the vanes- had a real problem w/ sticking.
I will know when the turbo gets here- I bought the 1st last night.
In the Ford the turbo is in the low backpressure/slow spool position under light cruise conditions and moves to high backpressure/quick spool as soon as you dip into the throttle. I imagine it is very much like the way a car w/ O2 sensor goes from closed loop at cruise to open loop maps w/ some throttle change.
Then as the desired boost is reached the vanes are varied toward the low backpressure position until the boost is stable. No wastegate needed, of course.
I would probably incorporate a "race" switch that when armed would keep the turbo in the quick spool state as long as boost was under max. This would allow for awsome boost response- though fuel mileage and EGTs would suffer.
#16
since there is always debate whether to go w/ limited HP of GT35 or lag of GT40.
In the context I used it needs no clarification since people deciding between the GT35 and GT40 will obviously choose the GT35 in they do not want the added lag of the GT40.
Likewise, those choosing the GT40 will have done so because they felt the GT35 was too limited in HP potential.
The GT37 appears to me to be a middle ground between the GT37 and GT0.
The 35R has been shown to make 400-450RWHP and is claimed by "those in the know" to be one of the best spooling turbo's on the market.
Right, so imagine a GT35R that used the VGT exhaust housing. It would spool up MUCH faster and by not requiring a wastegate to bypass exhaust flow at full boost should have greater top end power as well.
Remember the popular GT-R turbos are hybrids made from mixing and matching within the GT family of turbo housings, wheels and CHRA.
It should be possible to use the VGT housing w/ another GT turbo's ball bearing center section and GT40 compressor just as it is possible to make a GT30R that is GT30 exhaust side and ball bearing center and GT37 56 trim compressor section.
If we can adapt VGT exhaust housings it would open up a whole new realm of turbo experimentation w/ the GT line...
I will stick w/ the straight GT37 VGT for now since it is only $300 and the real work is getting the VGT to operate.
#17
There is very little lag on the 40R when compared to the 35R also the 37 is nonBB, the maps you chose for the 35/40 are wrong also.
Maps are probably correct, they are for GT35 and GT40 not the hybrid GT35R and GT40R variants as you are probably thinking of.
For instance a GT30R is GT30 Exhaust side and BB center mated to a GT37 compressor side. GT30 compressor map would look different from GT30R map...
My question is other than taking up the challange of making it work and being a little unique(both good reasons) why? Price? Both the 35R and 40R are great turbo's for the 13B.
Say it with me-
GT37 VGT
VGT is for "Variable Geometry Turbo."
This 1.0 A/R exhaust housing has many robust stainless vanes that can vary their angle to change the effective A/R of the turbo for both incredibly fast spool rate and free flow once desired boost is acheived. No wastegate needed.
The nonBB center of a GT37 VGT is likely going to spool up WAY before a GT35R. If you still want faster spool up I imagine a BB center could be retrofitted as well as a larger compressor side.
Maps are probably correct, they are for GT35 and GT40 not the hybrid GT35R and GT40R variants as you are probably thinking of.
For instance a GT30R is GT30 Exhaust side and BB center mated to a GT37 compressor side. GT30 compressor map would look different from GT30R map...
My question is other than taking up the challange of making it work and being a little unique(both good reasons) why? Price? Both the 35R and 40R are great turbo's for the 13B.
Say it with me-
GT37 VGT
VGT is for "Variable Geometry Turbo."
This 1.0 A/R exhaust housing has many robust stainless vanes that can vary their angle to change the effective A/R of the turbo for both incredibly fast spool rate and free flow once desired boost is acheived. No wastegate needed.
The nonBB center of a GT37 VGT is likely going to spool up WAY before a GT35R. If you still want faster spool up I imagine a BB center could be retrofitted as well as a larger compressor side.
#18
Re-engineering everything
iTrader: (2)
Let me just add: to say that the 40R compares favorably with the 35R doesn't mean that both turbos aren't laggy. I think the afformentioned turbos are fine if you commit to keeping the revs up above 3K, but for street driving or autoX those turbos don't have the usable torque band that you'd like.
I'm not trying to start a lag flamewar; I'm just pointing out that the VGT offers the possibility of sub-3K spool (especially in low gears) with the ability to put down more than 400RWHP. It also offers a vastly simplified exhaust system that is immune to creep.
-ch
I'm not trying to start a lag flamewar; I'm just pointing out that the VGT offers the possibility of sub-3K spool (especially in low gears) with the ability to put down more than 400RWHP. It also offers a vastly simplified exhaust system that is immune to creep.
-ch
#19
Just in time to die
iTrader: (1)
[i]
Say it with me-
GT37 VGT
VGT is for "Variable Geometry Turbo."
This 1.0 A/R exhaust housing has many robust stainless vanes that can vary their angle to change the effective A/R of the turbo for both incredibly fast spool rate and free flow once desired boost is acheived. No wastegate needed.
The nonBB center of a GT37 VGT is likely going to spool up WAY before a GT35R. If you still want faster spool up I imagine a BB center could be retrofitted as well as a larger compressor side. [/B]
Say it with me-
GT37 VGT
VGT is for "Variable Geometry Turbo."
This 1.0 A/R exhaust housing has many robust stainless vanes that can vary their angle to change the effective A/R of the turbo for both incredibly fast spool rate and free flow once desired boost is acheived. No wastegate needed.
The nonBB center of a GT37 VGT is likely going to spool up WAY before a GT35R. If you still want faster spool up I imagine a BB center could be retrofitted as well as a larger compressor side. [/B]
#20
Just in time to die
iTrader: (1)
Originally posted by hyperion
Let me just add: to say that the 40R compares favorably with the 35R doesn't mean that both turbos aren't laggy. I think the afformentioned turbos are fine if you commit to keeping the revs up above 3K, but for street driving or autoX those turbos don't have the usable torque band that you'd like.
I'm not trying to start a lag flamewar; I'm just pointing out that the VGT offers the possibility of sub-3K spool (especially in low gears) with the ability to put down more than 400RWHP. It also offers a vastly simplified exhaust system that is immune to creep.
-ch
Let me just add: to say that the 40R compares favorably with the 35R doesn't mean that both turbos aren't laggy. I think the afformentioned turbos are fine if you commit to keeping the revs up above 3K, but for street driving or autoX those turbos don't have the usable torque band that you'd like.
I'm not trying to start a lag flamewar; I'm just pointing out that the VGT offers the possibility of sub-3K spool (especially in low gears) with the ability to put down more than 400RWHP. It also offers a vastly simplified exhaust system that is immune to creep.
-ch
-Sean
#21
Well thank you for informing me as I don't think I could have figured that out, admiral obvious,
When you say the GT35R/40R are some of the best spooling turbos and thought GT37 VGT be simply "unique" and "challenging", but not performance enhancing I thought we were thinking along different lines.
The "possibility" of a 400RWHP + single turbo w/ better boost response than the 3rd gen sequential twins is what really has my interest. No one knows how realistic that "possibility" is at this point.
If your knowledge was as vast as you imply you would know that the 35R is the 35/40.
So GT35R would use GT40 compressor map, right?
The chances of fitting a BB center section are next to none, but good luck and before you go fitting a larger comp wheel on there make sure your compressor to turbine ratio is not going to be too far out of whack either.
My current turbo is a BNR stage IV that is T04B 60-1 HiFi compressor side and clipped T04 "P" trim wheel in bored stock '89 exhaust housing using stock center section and adapted to use a 60mm external WG. none of that stuff "bolts together".
Yeah, I've had it off 5 times to modify it to fix boost creep- but that is the learning process.
I do not doubt this VGT process will be even more complicated than a "simple" stock hybrid turbo.
we should say it together this will be a good challange and very unique both good reasons to do it but no reason to sound like a ***.
Now say this with me!
with potential for incredible performance gains.
Sorry if I come off like the *** that I am; especially since debates w/ informed members (such as yourself) is the reason I post on this forum.
#22
Rotary Enthusiast
Join Date: Jan 2002
Location: 15143
Posts: 859
Likes: 0
Received 0 Likes
on
0 Posts
Originally posted by BLUE TII
So GT35R would use GT40 compressor map, right?
So GT35R would use GT40 compressor map, right?
#23
Originally posted by Eggie
GT35/40 uses a GT35 compressor and GT40 turbine. Easy to remember when you think that RX-7s like lots of exhaust flow.
GT35/40 uses a GT35 compressor and GT40 turbine. Easy to remember when you think that RX-7s like lots of exhaust flow.
Plus, the GT40 was not available with a BB CHRA. So for the people who wanted to run the GT40 compressor with a dual BB CHRA the option was a 35CHRA and turbine hence the 35/40, 35R combo.
-Chris
#24
Just in time to die
iTrader: (1)
Originally posted by BLUE TII
So GT35R would use GT40 compressor map, right?
Why would it be next to no chance of fitting a BB CHRA to a VGT housing? We he the ability to machine parts.
Sorry if I come off like the *** that I am; especially since debates w/ informed members (such as yourself) is the reason I post on this forum. [/B]
So GT35R would use GT40 compressor map, right?
Why would it be next to no chance of fitting a BB CHRA to a VGT housing? We he the ability to machine parts.
Sorry if I come off like the *** that I am; especially since debates w/ informed members (such as yourself) is the reason I post on this forum. [/B]
#25
Originally posted by BLUE TII
Why would it be next to no chance of fitting a BB CHRA to a VGT housing? We he the ability to machine parts.
My current turbo is a BNR stage IV that is T04B 60-1 HiFi compressor side and clipped T04 "P" trim wheel in bored stock '89 exhaust housing using stock center section and adapted to use a 60mm external WG. none of that stuff "bolts together".
Why would it be next to no chance of fitting a BB CHRA to a VGT housing? We he the ability to machine parts.
My current turbo is a BNR stage IV that is T04B 60-1 HiFi compressor side and clipped T04 "P" trim wheel in bored stock '89 exhaust housing using stock center section and adapted to use a 60mm external WG. none of that stuff "bolts together".
It may just be physically impossible. For example, I can tell you that you can't take a standard Garrett T4 turbine housing and machine it to fit a BB CHRA. I'm pretty sure Sean will tell you the same thing. Not because we didn't have expereinced machinsts, but because the Garrett BB chra is vastly different from a convential journal bearing design. Getting the BB chra to fit in the correct axial location wrt/ the turbine housing requires a great amount of material removal. So much in fact, that there isn't enough, and you machine it all away and the housing falls apart.
He isn't saying that it's impossible, just not probable.
Yes I agree the VGT is interesting technology, and may be beneficial. It certainly adds another level of complexity.
As far as no WG? That assumes that the VGT at it's largest point is sufficiently large to prevent creep... and I wouldn't bet on that until it's been tried in our application. May work, may not, won't know till you try it.
Good luck.
-Chris