GOD'S VENGEANCE - Complete Drivetrain Redux
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I must say, I've just poked through this thread reading most of it. This build seems equivalent to starting from nothing, engineering everything, and assembling it without (as you have noted many times) cutting any corners, anywhere, at all. I'm floored at the amount of detail and (for lack of better terms) properness that has been imposed on this build. I can only wish that one day, when I decide I need more juice under my foot, that I can follow even a remotely similar path that you have carved out here. I'm impressed. Which is obviously an overly used word in this thread. I can't wait to see the numbers, and hear your overall experience with the outcome. Good luck with the rest of the build. I too am taking notes, although most of this is way over my head.
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Sorry that was hijack for Ken's viewing pleasure. They are located in each header primary. What it mostly shows is the OEM Rover EFI intake manifold is pretty well balanced. Our max correction was about 7% and that was very low rpm. Wideband O2 sensors are not that fast (despite what Innovate claims - the chemistry itself limits the response time) to show injector timing effects. A narrow-band would.Murfinator wrote:I suppose all 8 widebands are installed in the fuel rail...or the manifold? That's what I thought.FirstFives Dictator wrote:
you might enjoy this screen shot. The 8 widebands were connected to the MS3 via CANBus.
Perhaps you could provide an explanation of what your log is showing? Since you seem only to want to throw up about a screenshot I'll take a wild guess: AFR variations within individual intake runners or ITB's. Nice, but wouldn't the variation be explained by the sequential opening of injector pintles which disturbs both pressure and AFR in the area near the widebands? I'm assuming the widebands are installed near the injectors since you failed to elaborate regarding the layout of the system being measured in the log. I again assume it's a V8 race car you apparently make a good honest living tuning.
Helpful comments are appreciated but attempts to show your better informed than myself, a given since I'm a hobbyist and you do this for a living, aren't helpful.
Have you installed six wideband sensors in your E12?
Sorry for hijack, I thought Ken would enjoy.
I'm not going to bother installing widebands in my headers at this point. I'm doubtful that the variation will be measurable in power.
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Thanks for the clarification. I've noted your comments and intend to take advantage of the wisdom of those members possessing experience and knowledge beyond my own with regard to FI and tuning. This isn't my first build, nor my first FI build but I know my own limitations. I'm also attempting to perform most of the work myself to gain the experience and pride of craftsmanship.
I realize there may be areas where the build could be improved to squeeze a few more hp from the motor. However, the gains would likely not be worth the effort or noticeable from the driver's seat. Also understood are my limitations in the realm of driving skill since I've been conditioned to driving a Jeep, Subaru and rental cars for the past 2 years since the E28 has been on jacks. Gran Turismo helps but it's certainly not the same. To paraphrase others, anything over 350-400hp is just increased wheel spin. Even with sticky ExtremeContact 275's in the rear a motor outputing ~500hp will be a beast to control.
Dan, I was being facetious regarding the widebands. I'll be placing one in the downpipe.
I realize there may be areas where the build could be improved to squeeze a few more hp from the motor. However, the gains would likely not be worth the effort or noticeable from the driver's seat. Also understood are my limitations in the realm of driving skill since I've been conditioned to driving a Jeep, Subaru and rental cars for the past 2 years since the E28 has been on jacks. Gran Turismo helps but it's certainly not the same. To paraphrase others, anything over 350-400hp is just increased wheel spin. Even with sticky ExtremeContact 275's in the rear a motor outputing ~500hp will be a beast to control.
Dan, I was being facetious regarding the widebands. I'll be placing one in the downpipe.
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- Beamter
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Even though you are being pretty rude to Peter, I'll help you out.
The idea that pressure cannot be different in the fuel rail at different locations is simply not true. If things were completely static, I'd say that the pressure would be damn near constant at any point in the rail. Thing is, there is flow. There is flow through the rail and there is flow though the injectors. This flow is not constant and the FPR does not necessarily react instantaneously to pressure changes in the rail. The injectors open and close which causes pressure waves through the rail. These pressure waves can cause all sorts of freaky things to happen in the rail in the same way that valves opening and closing cause flow and pressure changes in an intake manifold. Though you would generally analyze the system with the fluid being non-compressible, but there are more factors at play here, such as the momentum of the fluid. An analogous system would be the piping in a house. Here is a little info on hydraulic shock (water hammer.)
http://en.wikipedia.org/wiki/Water_hammer
You also don't design manifolds for water distribution in such a way that multiple near simultaneous consumers are teed off sequentially because there would be a pressure drop at the end. This can be mitigated by having multiple feed locations to a manifold and by making your manifold larger so that it acts as a pressure reservoir.
FYI, there are fluctuations in air pressure in a single tire when the system isn't perfectly static, just as there are pressure differences inside your intake manifold when there is flow.
Now next time you should simply ask "why is that?" instead of thinking you know everything and smacking down someone that is only trying to help, especially when you already recognize that they are an expert in their field.
The idea that pressure cannot be different in the fuel rail at different locations is simply not true. If things were completely static, I'd say that the pressure would be damn near constant at any point in the rail. Thing is, there is flow. There is flow through the rail and there is flow though the injectors. This flow is not constant and the FPR does not necessarily react instantaneously to pressure changes in the rail. The injectors open and close which causes pressure waves through the rail. These pressure waves can cause all sorts of freaky things to happen in the rail in the same way that valves opening and closing cause flow and pressure changes in an intake manifold. Though you would generally analyze the system with the fluid being non-compressible, but there are more factors at play here, such as the momentum of the fluid. An analogous system would be the piping in a house. Here is a little info on hydraulic shock (water hammer.)
http://en.wikipedia.org/wiki/Water_hammer
You also don't design manifolds for water distribution in such a way that multiple near simultaneous consumers are teed off sequentially because there would be a pressure drop at the end. This can be mitigated by having multiple feed locations to a manifold and by making your manifold larger so that it acts as a pressure reservoir.
FYI, there are fluctuations in air pressure in a single tire when the system isn't perfectly static, just as there are pressure differences inside your intake manifold when there is flow.
Now next time you should simply ask "why is that?" instead of thinking you know everything and smacking down someone that is only trying to help, especially when you already recognize that they are an expert in their field.
A couple of numbers, taken from the datalogging when That Thing was on the dyno. MAP = ~14.95 psimooseheadm5 wrote:Even though you are being pretty rude to Peter, I'll help you out.
The idea that pressure cannot be different in the fuel rail at different locations is simply not true. If things were completely static, I'd say that the pressure would be damn near constant at any point in the rail. Thing is, there is flow. There is flow through the rail and there is flow though the injectors. This flow is not constant and the FPR does not necessarily react instantaneously to pressure changes in the rail. The injectors open and close which causes pressure waves through the rail. These pressure waves can cause all sorts of freaky things to happen in the rail in the same way that valves opening and closing cause flow and pressure changes in an intake manifold. Though you would generally analyze the system with the fluid being non-compressible, but there are more factors at play here, such as the momentum of the fluid. An analogous system would be the piping in a house. Here is a little info on hydraulic shock (water hammer.)
http://en.wikipedia.org/wiki/Water_hammer
You also don't design manifolds for water distribution in such a way that multiple near simultaneous consumers are teed off sequentially because there would be a pressure drop at the end. This can be mitigated by having multiple feed locations to a manifold and by making your manifold larger so that it acts as a pressure reservoir.
FYI, there are fluctuations in air pressure in a single tire when the system isn't perfectly static, just as there are pressure differences inside your intake manifold when there is flow.
Now next time you should simply ask "why is that?" instead of thinking you know everything and smacking down someone that is only trying to help, especially when you already recognize that they are an expert in their field.
Pressure @ primary fuel pump = 58.92 psi.
Pressure @ #1 cylinder injector = 58.64 psi.
Pressure @ #6 cylinder injector = 58.51 psi.
A/F ratio @ #1 cyllinder = 10.99.
A/F ratio @ #6 cylinder = 11.01.
pressure delta = ~.23 of 1 %.
Stipulated that these #s were taken at a constant 5700 rpm, which is the peak of the hp curve.
A/F is a bit on the rich side, as we had not yet begun to dial this back or do individual cylinder trims.
HTH.
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Moose: I regret that you seem to have taken offense to my comment. At least Peter didn't make so rash a reaction and provided a good explanation for which I thanked him. I was asking for clarification. If you take offense that is your decision and your problem.
Why people continually attempt to judge tone in this forum is beyond me. There are some ego's here I do not appreciate. I'm obviously posting these updates to get input and simply ask for clarification and backup when needed to clear up confusion. For some reason I come off as somewhat of an asshole to some people. That's not my intention. Sorry.
Why people continually attempt to judge tone in this forum is beyond me. There are some ego's here I do not appreciate. I'm obviously posting these updates to get input and simply ask for clarification and backup when needed to clear up confusion. For some reason I come off as somewhat of an asshole to some people. That's not my intention. Sorry.
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It amazes me the level of detail and extensive notes you've taken throughout your build Ken. Your posts and our discussions have been an invaluable resource. That being said, my earlier comment, "I realize there may be areas where the build could be improved to squeeze a few more hp from the motor. However, the gains would likely not be worth the effort or noticeable from the driver's seat." begs the question: will 2-3 tenths PSI difference at an injector equate to much if any humanly noticeable difference to the driver? Also, is it money or time well spent to get a dead-nuts perfect tune when the vehicle is to be used for bi-weekly open track events and spirited weekend drives? If this was a dedicated race car owned by a team with a multimillion dollar R&D budget and the margin of victory was measured in tenths of a second, perhaps.Ken H. wrote:A couple of numbers, taken from the datalogging when That Thing was on the dyno. MAP = ~14.95 psi
Pressure @ primary fuel pump = 58.92 psi.
Pressure @ #1 cylinder injector = 58.64 psi.
Pressure @ #6 cylinder injector = 58.51 psi.
A/F ratio @ #1 cyllinder = 10.99.
A/F ratio @ #6 cylinder = 11.01.
pressure delta = ~.23 of 1 %.
Stipulated that these #s were taken at a constant 5700 rpm, which is the peak of the hp curve.
A/F is a bit on the rich side, as we had not yet begun to dial this back or do individual cylinder trims.
HTH.
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- Beamter
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Don't you have two fuel rails and 12 injectors, though?Ken H. wrote:
A couple of numbers, taken from the datalogging when That Thing was on the dyno. MAP = ~14.95 psi
Pressure @ primary fuel pump = 58.92 psi.
Pressure @ #1 cylinder injector = 58.64 psi.
Pressure @ #6 cylinder injector = 58.51 psi.
A/F ratio @ #1 cyllinder = 10.99.
A/F ratio @ #6 cylinder = 11.01.
pressure delta = ~.23 of 1 %.
Stipulated that these #s were taken at a constant 5700 rpm, which is the peak of the hp curve.
A/F is a bit on the rich side, as we had not yet begun to dial this back or do individual cylinder trims.
HTH.
As you said, this is at steady flow. Even then the readings from the gauges are time averaged in some way (with a pressure gauge they are time averaged by the capacity of the gauge, and with digital electronics, they are time averaged by the electronics.)
Last edited by mooseheadm5 on Mar 29, 2012 2:42 PM, edited 1 time in total.
You just answered your own question, my friend. Absolutely not. If you're happy with knowing that you may have left a tiny bit on the table then you'll be fine.Murfinator wrote:Also, is it money or time well spent to get a dead-nuts perfect tune when the vehicle is to be used for bi-weekly open track events and spirited weekend drives? If this was a dedicated race car owned by a team with a multimillion dollar R&D budget and the margin of victory was measured in tenths of a second, perhaps.
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It isn't just about the power, though. It is about proper distribution of fuel for the incoming air. You will never know the individual AFRs without 6 widebands, which isn't going to happen, so the best thing you can do is to design the injection system for equal flow and hope for the best. If your rail isn't properly designed, the result could be detonation, which will destroy the motor.skip535i wrote:You just answered your own question, my friend. Absolutely not. If you're happy with knowing that you may have left a tiny bit on the table then you'll be fine.Murfinator wrote:Also, is it money or time well spent to get a dead-nuts perfect tune when the vehicle is to be used for bi-weekly open track events and spirited weekend drives? If this was a dedicated race car owned by a team with a multimillion dollar R&D budget and the margin of victory was measured in tenths of a second, perhaps.
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Skip: your right, I should stop the rhetoric. I already knew the answer.mooseheadm5 wrote: It isn't just about the power, though. It is about proper distribution of fuel for the incoming air. You will never know the individual AFRs without 6 widebands, which isn't going to happen, so the best thing you can do is to design the injection system for equal flow and hope for the best. If your rail isn't properly designed, the result could be detonation, which will destroy the motor.
Moose: It's the same rail Ken got from Paul Burke. In my case I'm running a single rail (LH has staged injectors on twin rails) with new matched 65# low-z injectors. With the upgraded fuel supply system components I will have more than adequate capacity and overhead to support extended WOT events without fear of detonation. Running E85 also helps.
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Yes, two rails, two sets of injectors, two pumps.mooseheadm5 wrote:Don't you have two fuel rails and 12 injectors, though?Ken H. wrote:
A couple of numbers, taken from the datalogging when That Thing was on the dyno. MAP = ~14.95 psi
Pressure @ primary fuel pump = 58.92 psi.
Pressure @ #1 cylinder injector = 58.64 psi.
Pressure @ #6 cylinder injector = 58.51 psi.
A/F ratio @ #1 cyllinder = 10.99.
A/F ratio @ #6 cylinder = 11.01.
pressure delta = ~.23 of 1 %.
Stipulated that these #s were taken at a constant 5700 rpm, which is the peak of the hp curve.
A/F is a bit on the rich side, as we had not yet begun to dial this back or do individual cylinder trims.
HTH.
As you said, this is at steady flow. Even then the readings from the gauges are time averaged in some way (with a pressure gauge they are time averaged by the capacity of the gauge, and with digital electronics, they are time averaged by the electronics.)
Both sets are full-sequential.
However, the primary injectors have six individual drivers. The secondaries are run by two additional drivers--1-3-5 and 2-4-6. This is because the TEC-3r has a total of 8 available drivers.
So I can do lots of wonderful things to the individual holes on the primaries; the secondaries have to be dealt with "in bunches," as it were.
That being said, the available instrumentation at Mile High was focused on getting everything to cooperate on the primaries. The secondary pump and billet controller was checked and dialed in to more or less match the primary.
Pressure @ secondary fuel pump = 60.12 psi.
Pressure @ #1 cylinder injector = 59.44 psi.
Pressure @ #6 cylinder injector = 58.51 psi.
Why the drop, I dunno.
No A/F numbers taken solely on the secondaries, as the layout doesn't allow for shutting down the primary pump and running entuirely on the secondary. Yeah, it can be done by jumpering the controllers and thereby the power to the pumps but this is hardly something that needs to be done for tuning purposes.
pressure delta = ~2.67 of 1 %.
I ought to add that the primaries are 45#. Limited on duty cycle to 75%, they are effectively tapped out at around 33# delivery. As the system is set up, as the primary d.c. gets up around 67% or so, the secondaries start to open up. This is also keyed to MAP to avoid hammering the throttle at relatively low boost, say 7 psi, and going stupid rich before boost begins to build.
What this translates into is the 72# secondaries are shut down entirely most of the time. This pattern applied on the dyno as well, so we were looking to do calibrations not so much in "real time," with the secondaries thoroughly opened, but doing a relatively brief period at full boost (maybe 15-20 seconds MAX) then assessing the datalogged results.
In the Real World, rolling into 1 bar and holding it for that long will get you to redline Right Now and give you religion.
Subsequently doing runs over the road, and doing datalogs, the A/F numbers have been in the mid-12s, with boost around 125 kPa, this accelerating with 7.25 # of boost. Under hard acceleration pulls, with boost ~185kPa, the A/F dropped as low as 10.26.
Typically, under steady cruise, with kPa between 90 and 100, the A/F is around 14.5 +/-, or right about stoich.
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That's what I thought. Your flow rates in each rail are lower than Murph's single rail will be. As you can see, there is a definite difference in pressures through the rail.
I'm glad you took so much data, Ken. It really helps.
Out of morbid curiosity, Murph, what fuel pressure will you be running? Are you going for 500 rwhp or 500 bhp?
I'm glad you took so much data, Ken. It really helps.
Out of morbid curiosity, Murph, what fuel pressure will you be running? Are you going for 500 rwhp or 500 bhp?
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On a properly designed system, it shouldn't apply.FirstFives Dictator wrote:On single rail system I worry about Bernoulli's effect
Are you having fuel starvation problems on the stock BMW layout?
Consider:
1. The sizing of the piping, from fuel pickup through the transfer and main pump, forward to the fuel rail and thence into the fuel pressure regulator, needs to be of the same inside diameter.
Size things down, out of budgetary constraints, laziness or lack of understanding, and flow rates and delivered volumes will suffer.
Simply put, you cannot move the Mississippi through a straw.
2. There are a number of reliable websites which can do the calculations on flow of liquids through a pipe. Or you can reread the theory and practice in your Fluid Dynamics textbooks.
3. Quite frequently, the internal volume of the fuel rail will be noticeably larger than an equivalent length of fuel line. If you're thinking Bernoulli effect here, (lowered pressure) I can understand that. But this is why we have a FPR--to assure that fuel delivery is maintained at a stipulated pressure. If injector demands become large enough to effectively "suck the pipe dry," the most apparent solution is to remove the flow restriction, i.e., upsize the fuel line.
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As you said, for a properly designed system, this isn't an issue. What Peter and I are saying is that this might not be a properly designed system and that the issues we are bringing up are real and potentially bad news for his engine at high power output levels.
The issue here isn't the injectors sucking the rail dry, it is a pressure gradient through the rail. At higher fueling requirements, the flow through the rail speeds up. There will be friction and pressure drop. The pressure regulator only senses the pressure at one point on the rail, so it will either over- or under-compensate depending on the location. In your case, Ken, your flow is split into two rails at high flow rates, but this build will utilize a single rail of the same design with a higher required flow rate for that single rail than you use for two rails. Basically, with a smaller rail and a single inlet, each injector will "see" different fuel pressures, which will change their flow rates. You experienced a small pressure difference at max flow, but it is measurable and it will have a small effect on AFR. With higher flow rates into the same rail, the effect will be even more pronounced. Trimming the fuel for each cylinder will make up for this, but the fuel trims take while to dial in and they would change depending on flow rate because the pressure differences in the rail increase with load.
The stock BMW layout is definitely adequate for NA, but NA cars are not nearly as susceptible to detonation damage as heavily boosted cars.
The issue here isn't the injectors sucking the rail dry, it is a pressure gradient through the rail. At higher fueling requirements, the flow through the rail speeds up. There will be friction and pressure drop. The pressure regulator only senses the pressure at one point on the rail, so it will either over- or under-compensate depending on the location. In your case, Ken, your flow is split into two rails at high flow rates, but this build will utilize a single rail of the same design with a higher required flow rate for that single rail than you use for two rails. Basically, with a smaller rail and a single inlet, each injector will "see" different fuel pressures, which will change their flow rates. You experienced a small pressure difference at max flow, but it is measurable and it will have a small effect on AFR. With higher flow rates into the same rail, the effect will be even more pronounced. Trimming the fuel for each cylinder will make up for this, but the fuel trims take while to dial in and they would change depending on flow rate because the pressure differences in the rail increase with load.
The stock BMW layout is definitely adequate for NA, but NA cars are not nearly as susceptible to detonation damage as heavily boosted cars.
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Depending on the HP levels and injection scheme used, we're probably talking about rail fluid velocities of 200-300% of stock.mooseheadm5 wrote:As you said, for a properly designed system, this isn't an issue. What Peter and I are saying is that this might not be a properly designed system and that the issues we are bringing up are real and potentially bad news for his engine at high power output levels.
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Ken has also pointed out that if I'm planning to use E85 the flow requirements will increase by ~50% due to the lower energy content of the fuel. I may be forced to keep the boost low while driving on the street with 91 octane and turn it up a bit at the track where I'll use 111 octane fuel. Otherwise I'm looking at upgrading the injectors and being near the edge of the fuel pump capacity minus recommended duty cycle of 75%.
Issues like this are exactly why I've been posting updates on the build. Thanks for all the input!
Issues like this are exactly why I've been posting updates on the build. Thanks for all the input!
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I actually pointed that out to him. I guess he decided to contact you about it first. If you are using 65# injectors and E85, you won't get much over 400bhp before your injector duty cycle is 100%. ~350bhp for 80% max duty cycle.Murfinator wrote:Ken has also pointed out that if I'm planning to use E85 the flow requirements will increase by ~50% due to the lower energy content of the fuel.
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