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Author Topic: New diverter valve  (Read 15252 times)

Offline GTI_Daz

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New diverter valve
« on: September 24, 2009, 07:15:12 pm »
Hi folks, my engine management warning light was on so took it to a mates to check what it was using vagcom. turns out it is the diverter valve thats faulty. been looking for one on the net, found one - part number 06H 145 710D. Just wanna make sure this is the right one before I go and get it  :confused:

Offline robern2

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Re: New diverter valve
« Reply #1 on: September 24, 2009, 08:25:27 pm »
I had the G revision on my edition 30, still failed so went for Forge.

Offline GTI_Daz

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Re: New diverter valve
« Reply #2 on: September 24, 2009, 08:36:04 pm »
So go for the forge one then???  :laugh:

Offline SteveP

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Re: New diverter valve
« Reply #3 on: September 24, 2009, 08:48:58 pm »
The new revision D you have listed above has proven to be pretty good so far  :happy2:

Offline GTI_Daz

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Re: New diverter valve
« Reply #4 on: September 24, 2009, 09:06:44 pm »
Think am gonna go for the new revision D! whats best to do go to vw quoting part number or is there somewhere els i can pick one up from???  :confused:

Offline gazbutS3

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Re: New diverter valve
« Reply #5 on: September 24, 2009, 09:12:54 pm »
there only about 40 quid pal from VW :smiley:

Offline GTI_Daz

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Re: New diverter valve
« Reply #6 on: September 24, 2009, 09:15:29 pm »
i know, just didnt wanna wait around for them to order one if i can pick one up elsewhere! very impatiant and wanna get it sorted tomorrow! hopefully they will have one in stock  :happy2:

Offline SteveP

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Re: New diverter valve
« Reply #7 on: September 24, 2009, 09:22:21 pm »
i know, just didnt wanna wait around for them to order one if i can pick one up elsewhere! very impatiant and wanna get it sorted tomorrow! hopefully they will have one in stock  :happy2:

They may have it in stock, my local one didn't but got one in next day  :happy2:

Offline GTI_Daz

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Re: New diverter valve
« Reply #8 on: September 26, 2009, 08:41:02 am »
Got the new revision D, mate fitted it yesterday and its spot on!!!! made a big difference  :happy2: :grin:

Offline holepunch

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Re: New diverter valve
« Reply #9 on: September 26, 2009, 11:52:42 pm »
Got the new revision D, mate fitted it yesterday and its spot on!!!! made a big difference  :happy2: :grin:

Would you say this is a DIY job?  Is there any coding involved?

Offline gazbutS3

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Re: New diverter valve
« Reply #10 on: September 26, 2009, 11:58:57 pm »
no coding just a bolt on and plug job :happy2:

Offline warren_cox

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Re: New diverter valve
« Reply #11 on: September 27, 2009, 08:02:08 am »


The old style DV is the one with the orange rubber diaphragm. The new revision D is on the left (no rubber diaphragms to split).

Here is a pic of the old style DV opened up.



This one was healthy, but was struggling to hold the boost of the Stage 2+. The revision D valve has a slightly different 'cracking' pressure (in the way that when you pull the valve out by hand there is a manufactured resistance in the revision valve to get it to open against the original unit which is totally smooth piston action - or there was in the one I purchased).

I've been running the rev.D for some time and it's been fine.
« Last Edit: September 27, 2009, 09:34:03 am by warren_cox »
Audi S3 (8P)

Mods: Revo Stg 2+, KMD HPFP, ITG CAI, NGK Iridiums, Rev D DV, 19" RS4 wheels, PIAA bulbs


Offline nc35

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Re: New diverter valve
« Reply #12 on: September 27, 2009, 09:21:38 am »
Real lame question.

But what does a DV do, can't find it in the Haynes manual, may have someothername?

And where abouts is it? Is it an easy DIY replacement?

How do you know if it's faulty and needs replacing?

Sorry for the questions.

Cheers
No Golf anymore. 
Enjoyed the last five years of ownership of Mk5 & 6 GTIs.
Plus an excellent forum for knowledge and new ways to deplete the bank account.
Thank You Everyone.

Offline warren_cox

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Re: New diverter valve
« Reply #13 on: September 27, 2009, 09:42:34 am »
Real lame question.

But what does a DV do, can't find it in the Haynes manual, may have someothername?

And where abouts is it? Is it an easy DIY replacement?

How do you know if it's faulty and needs replacing?

Sorry for the questions.

Cheers

I have created a very basic self help thread for people on Audi Sport.net. Click on this link, then follow the photos through and see the descriptions underneath to see how to replace it (only relevant for SEAT Cupra / Edition 30 / S3 as Golf GTi 200PS is located on the turbo, and not remotely at the front of the bay): http://picasaweb.google.com/warrencox5/S38PDVInstallation#5337619273398650034

This explanation is from Mike @ Forge off one of the Audi sites:

I'll try to be as clear as possible in my explanation of things and I have simplified a few areas for ease of understanding, but I will gladly elaborate if necessary. The points I touch on will be those that are most commonly brought up on these and other forums, but other relevant information is included for everyone to consider.

The basics.

What a Diverter/Blow-Off/Bypass Valve is and what it Does:

There are numerous names given to this part, and it should be understood that they are all interchangeable terms used in different ways by different people all to describe the same basic thing.

Diverter Valve
Blow-Off Valve
Dump Valve
(Compressor) Bypass Valve
Pop-Off Valve
Discharge Valve
Boost Valve
Hooter Valve (Yes, I have even seen people call them "hooter" valves  )
Etc.

Whether the valve is venting or recirculating, it is still a “bypass valve”, and since this term gives no implication to recirculating or venting function, it is the best term to use when talking about all of these valves in general terminology.

Basically, a bypass valve exists to relieve a residual amount of boost pressure in a pressurized application when the throttle on the application is abruptly closed preventing the air from “backing up” into the compressor wheel of the turbo, slowing it down, thus creating “lag” when the throttle is reapplied.

Whether the air is vented or recirculated makes NO difference to the amount of “lag” created.

"Lag" would only be created if there was no bypass valve in place at all, and the residual charge air inside the intercooler piping "backed up" into the compressor wheel at throttle lift. Whether an atmospheric or a recirculating valve is used, the valve is still able to bypass the residual charge pressure at throttle lift allowing the compressor wheel to maintain it's rate of speed, thus reducing “lag”.

The OEM Valves on the Evo's:

While the OEM valves on the Evo's, both the black plastic and the metal JDM/MR/9 units, are fine and dandy for certain applications and performance needs, they are not necessarily the best solution for every application.

I appreciate the views of those who like the OEM valves, their performance, and operation, and that they recommend the JDM/MR/9 valve as an upgrade for those whose cars still have the black plastic valve, but even then, there are some faults to be found.

Both of the OEM valves are a multi-chambered design, and while the design works well under certain scenarios, the valves typically will not hold boost levels as high as other aftermarket alternatives. When looking at the OEM valves, take note of the channel/vein running up the back side of the valve. This channel is used to help equalize the pressure differential on either side of the valve's diaphragm under partial throttle/partial boost conditions. (more on this later) This equalization of pressure helps give the valve very smooth response and operation.

The limiting factor of the OEM valves, however, is boost holding capacity. As mentioned above, a valve's ability to hold boost is not solely a function of spring pressure. The small vacuum line sourced from the intake manifold to the valve provides a positive pressure reference to the valve under positive pressure/boost conditions to aid in the valve's ability to maintain a seal and retain boost in the system until throttle lift. While other factors such as surface areas also apply, when the boost pressure in the intercooler piping surpasses the holding capacity of the spring and pressure reference combined, the valve will begin to leak/bleed off boost pressure causing a loss of an indeterminable amount of power dependant upon the size of the leak.

The OEM black plastic valve has been tested to hold roughly 18-19 PSI reliably. This figure may vary from valve to valve and car to car, but this is a good estimate to go by.

The metal JDM/MR/9 valve has been tested to hold roughly 21-22 PSI reliably, but really no more. Again, these figures may vary slightly from your car, but these are best estimates for the sake of argument.

Again, this, in no way means that these valves are insufficient at holding boost under those circumstances, but as the vast majority of Evo owners undertake modifications to boost their cars beyond these levels, the valves are then lacking compared to other manufacturer's valves in their ability to hold boost.

Aftermarket Valves:

Options abound. That's all really.

There are so many choices available on the market, it's perfectly understandable how people get confused, so let's be sure to take it easy on the "newbies" to the turbo world who need some guidance. We were all there once too.

With that said, valve selection IS a very important thing and should not be taken lightly. Valve selection should be made considering a number of different factors each of which will be specific to the application it will be used on and the use the valve will see.

Design
Boost Holding Capacity
Flow Volume
Adjustment Range
Quality
Reliability
After-Sale Support
Etc.

One VERY important factor is atmospheric vs. recirculating, and while I will elaborate on this more in depth below, if anyone is not comfortable making the decision themselves, please consult with a reputable and trusted valve manufacturer or your vehicle's tuner before making your choice.

ATMOSPHERIC vs. RECIRCULATING vs. 50/50:

The BIG question.

The simple answer:

What kind of valve is your engine management system designed for and/or capable of allowing for the use of?

Yes, I answered a question with another question, but the real answer is, there is no simple answer. Each person will need to consider what their plans for their car are, what type of engine management system they will ultimately be using, and what valve can or can't be used with that type of system. “Blow-off valve sound” aside.

Firstly, we need to know what type of engine management can use what type of valve.

Mass AirFlow systems are designed as "closed-loop" systems requiring the use of a recirculating valve.

Speed Density systems are typically setup as closed-loop systems from the factory, but they can typically use either a recirculating OR atmospheric valve without any major detriment to the system.

MAP based systems (manifold absolute pressure) are typically capable of allowing for the use of either valve as well, but most MAP-based systems are fully stand-alone and require significant tuning to overcome any changes.

Now, with that said, the OEM ECU used on the Evo is a Mass Airflow system. It requires the use of a recirculating valve. If anyone, through the course of modifying their car, plans to continue to use the OEM ECU as the base for their engine management (even if some aftermarket tuner has uploaded new programming or a piggyback system is used), it is HIGHLY recommended to continue to use a recirculating valve.

The use of an atmospheric valve will cause a rich fuel mixture due to the loss of already metered air which the ECU is expecting to remain in the system. When the air is vented, the ECU dumps fuel into the system expecting the air to be there, and it's not. This rich fuel condition can sometimes be severe enough that the ECU cannot compensate for the condition and the car will run rough, not idle properly, experience a loss of power, and also experience poor fuel economy.

I have personally seen, on my own vehicle, a loss of as much as roughly 40 miles per full tank of fuel from using an atmospheric valve on a tuned, but otherwise stock engine management system.

If anyone, through the course of modifying their car, plans to switch their engine management from the OEM ECU to some form of standalone engine management (NOT a piggyback system, as even a piggyback still uses the OEM ECU), they can then, and only then, consider the use of an atmospheric valve, as such a system can compensate for, or be tuned to allow for the use of such a valve without any of the problems mentioned above.

50/50 valves, while seemingly great, are not an ideal solution by any measure, in my personal opinion.

(Yes, everything below is a personal opinion and subject to argument, but I’d like to think I know what I’m talking about.)

While they are designed to accomodate those with the desire for an increase in the "blow-off valve sound" from their car, they do so in a way that is still venting metered air, still causing a somewhat richer fuel condition, and still potentially leading to the above mentioned problems. While they may appear to work on any given vehicle, they are only doing so within a window that is not yet necessarily a largely detrimental problem to the OEM ECU at that time and it's ability to alow for the venting of metered air.

The difficulty lies in that there is no precise way to measure, at least cost effectively for aftermarket companies anyway, the PRECISE amount of air that can "safely" be vented out of the system and not cause a problem for the ECU, in whatever it's current state of tune may be, and it's ability to correctly add fuel to the system in the appropriate ratio. There are innumerable factors to consider that will never be perfectly "tuned" in a single 50/50 valve design to suit all applications.

50/50 valves are essentially trying to "trick" the ECU into believing that enough air is still being recirculated to maintain a proper air/fuel ratio under any given load condition, when, in fact, there is no way to effectively know what ratio should be used, if any at all.

The safe bet is to just use a recirulating valve where recommended and enjoy the security that you know that your ECU is not struggling to maintain a proper air/fuel ratio.

If the added sound is REALLY the most important thing to you, however, you must be willing to accept a level of risk that some problems MAY occur.

While it may be nice to have that blow-off valve (whooshing) sound, I personally feel that it's significantly more important to have a valve that will perform and operate properly for the given application regadless of the amount of noise it makes. I do not feel that valves should be designed to make a particular sound, nor to trick their engine management system, whether factory or aftermarket, into thinking the car is operating properly. Valves are meant to perform a specific function that should be done in a manner best suiting the specific application.

Valve Tuning:

Once you have made your valve choice, regardless of which manufacturer’s valve you select, the same basic tuning principles will apply.

If you are finding that your valve is dumping more air than required, venting too soon, or it is leaking boost before the redline of your application is reached, it is normally an indication that the valve is adjusted or tuned too softly and that a stronger spring or more spring tension is required. Conversely if the valve is failing to dump boost pressure, or you are experiencing valve fluttering at full boost throttle lift, it may be necessary to install a weaker spring or tune the valve to a softer setting.

If you have a valve that uses different springs for tuning and, during the tuning of your valve, you are faced, for example, with a given spring being to strong and another spring being too weak, you can add spacers/shims/washer (which are typically included) to the softer spring to increase the tension by small increments, thus achieving a setting between the two springs.

If your valve uses some sort of adjustment knob, screw, or bolt at the top used to adjust the amount of pre-load on the spring to increase or decrease its tension and, subsequently, its boost holding capacity, unfortunately, there are other things, you must consider first, so read carefully.

First, you must consider what type of spring is used in the valve.

Does it use a cylindrical spring in the shape a can of food, or a conical spring in the shape of a funnel?

A cylindrical spring is the most commonly used type of spring, and while great for most applications, has limited tenability. Cylindrical springs can only be compressed to a certain point to which all of it’s coils are stacked; resting on top of one another. At this point, the spring has reached its full range of travel and can compress no further. In tuning a valve with a cylindrical spring, adding pre-load through an adjustment knob or adding spacer/shims/washers must be done carefully so as not to add to much pre-load that the valve’s piston then has limited travel. Limited travel can result in limited airflow which can inhibit the valve’s ability to perform optimally for the application.

A conical spring offers a much larger range of adjustability than a cylindrical spring within a given valve. A conical spring of the same height as a given cylindrical spring can be compressed much further as each smaller spring coil will rest inside the inner diameter of the next largest coil, preventing a “stacking” effect of the coils. This typically means that more pre-load can be added without limiting piston travel allowing for unobstructed airflow at all pre-load levels.

Also, consider how the spring used in the valve of your choice is manufactured, regardless of which type it is. Cold-winding of springs is a practice used to ensure the strength of the spring and to prevent any relaxing or sagging of any individual coils as the spring is heat cycled through daily usage. This will ensure that the spring retains its rate and boost holding capacity for an extended period of time. Not all manufacturers use cold-winding techniques, so keep that in mind.

With these things in mind, tuning of the valve can commence with caution given to how much pre-load is added, and an understanding that while there may appear to be more adjustment available from the knob, screw, or bolt, the amount of pre-load may already be the maximum allowable amount to not inhibit piston travel, and subsequently airflow volume.

Valve Fluttering:

Valve fluttering is commonly thought to be an automatic indicator of compressor surging, and I would like to put that rumor to rest right now. This could not be further from the truth.

Compressor surging (caused by a bypass valve) implies that the bypass valve is not opening fully to allow the optimal amount of airflow required to keep the compressor wheel of the turbo spinning at an optimal speed.

Bypass valve fluttering will occur under various circumstances, so please consider under what situations you are experiencing fluttering before you presume that compressor surging is taking place, or more importantly, before it is assumed that a problem even exists.

Valve fluttering under wide open throttle or full boost throttle lift, again, typically means that a valve is tuned or adjusted to stiffly, and while this can lead to compressor surging and potential damage over an extended period of time, if the user fixes the issue quickly, no significant damage will occur. It would only be after prolonged use of a valve in an improperly tuned configuration that compressor surging MAY lead to damage or excessive wear on the turbocharger.

Valve fluttering under partial throttle or partial boost throttle lift, on the other hand, is a completely normal occurrence and IS NOT an indication of compressor surging by any measure.

Partial throttle or partial boost valve fluttering is solely an indication that the valve is directly responding to the inconsistent pressure differential on either side of the throttle plate (throttle body).

An internal combustion engine naturally creates a vacuum effect during the intake stroke of a given cylinder. When boost pressure is built from the turbocharger, it will reach a certain level inside the intercooler piping, but as it enters the intake manifold, it is almost instantly reduced by a given amount of vacuum created by the intake stroke of the engine, thus resulting in a marginally lesser amount of boost pressure inside the intake manifold compared to inside the intercooler piping.

Since the bypass valve sees references from both of these pressure sources, the sealing surface of the valve, be it a diaphragm or a piston, will respond to these differences in pressure, as minor or severe as they may be. This sealing surface response is what is creating the fluttering effect at partial throttle or partial boost throttle lift.

It may be more pronounced on some applications than others, and as mentioned above, the OEM Evo valves incorporates a feature to combat this issue, and while it will always be present to a small extent, it is not a problem for the vehicle in any way whatsoever.

Bypass Valves and Boost Controllers:


The bypass valve of any forced induction application must always have a intake manifold pressure reference. You should NEVER reference the bypass valve from the turbo outlet nipple nor from the intercooler piping at any point before the throttle body.

With that said, if the boost controller and bypass valve share the same reference from the intake manifold, you can figure that they are essentially sharing the same volume of air (pressure/vacuum).

When the boost controller (lock-ball-and-spring type) actuates, meaning when the spring allows the ball to come off of it's seat and send the pressure signal to the actuator or external wastegate, some of the "shared" pressure helping to hold the bypass/blow-off valve closed under boost is now momentarily diverted to the actuator or wastegate potentially causing a "flutter" in the seal surface of the bypass valve and a slight loss of boost pressure altogether within the system.

When the boost controller and bypass valve each have their own individual reference from the intake manifold, the possibility for this flutter is greatly decreased, however, it may still exist to some extent because both references are still sharing a given volume of intake manifold pressure.


It is always highly recommend to ensure that any boost controller is referenced from the turbo outlet nipple where available, or from the intercooler piping before the throttle body if no turbo outlet nipple exists.


This is also important in that the boost controller only ever needs to see a positive pressure reference, and never vacuum.


Boost Controller
Positive Pressure Only
(Turbo Outlet)

Bypass/Blow-Off Valve
Positive Pressure AND Vacuum
(Intake Manifold)
Audi S3 (8P)

Mods: Revo Stg 2+, KMD HPFP, ITG CAI, NGK Iridiums, Rev D DV, 19" RS4 wheels, PIAA bulbs


Offline sub39h

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Re: New diverter valve
« Reply #14 on: December 20, 2011, 05:35:05 pm »
holy thread revival batman!!

i was wondering, i'm going to invest in a new DV for my car, and want to relocate it to the K04 position. i want a bit more chatter too. i know some people think it's chavvy and i've skim read Warren's guidance above, but the BOV sound is cool to me :grin:

anyway this gives me two choices:

1. rev D dump valve and forge spacer

2. forge DV

i want it a bit more noisy, but i don't want it to sound like an HGV. what's the better option? i also remember one of the tuners on here writing a piece about how the rev D dump valve can leak (but i can't find it hence why i'm posting here)

what do ppl suggest and why?

thanks,

S.
« Last Edit: December 20, 2011, 05:42:46 pm by sub39h »
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