You do not mention what the vehicle or engine is? What you can see are casting marks on the compressor housing, which relate to the material, the casting supplier and also the size of the housing, but this same casting could be used on many turbos, so it does not really help in identifying your turbo. I would suggest checking our “Model and Part Numbers” section on the following website, which shows you what to look for on your turbo:
Alternatively, there is a section on the Enquiry page which allows you to upload a photo of your nameplate and we can help in identifying the correct replacement part.
Yes, firstly do not treat changing the turbo in the same way as you might change an alternator or a starter motor. The most important factor is to discover why the original turbo is damaged. Once you have found the root cause of the damage, only then fit the replacement turbo. If you miss out this stage, it is very possible that the replacement turbo will be damaged in the same way as the original unit – often much more quickly. Please visit our website:
This website gives some useful information regarding this important stage and we also recommend watching our short (9 minute) video about turbo installation:
There are many very important small points included in the video which will help you to avoid an “early life failure” of the replacement unit.
Turbos sometimes look identical from outside, but can have many different parts inside. These can give two seemingly identical turbos totally different performance and using the wrong one could lead to error messages, poor running, low power, emissions outside of specification or could even cause damage to the engine. To be sure, check your existing turbo part number (on the turbo nameplate) or vehicle details on our free to use Global Catalogue (a link is included on this website). If there is a safe alternative (called a Direct Service Replacement), it will be shown. If the interchange is not shown, then we strongly advise against it as using the wrong turbo could invalidate your warranty.
Oil is the lifeblood of the turbo and clean, top quality oil of the correct grade is one of the most important factors to ensure your turbo has a long service life. If your turbo is damaged and needs replacing, it is quite possible that the oil has become contaminated and you should always change it and the oil filter before fitting a new turbo. Modern oils may seem expensive, but a few litres of the finest oil is much cheaper than replacing another turbo prematurely!
No, it is not normal. Loud whistling from a turbo normally indicates that something is wrong. When we assemble the turbo, we test every unit on a on a highly accurate balancing machine called a VSR (Vibration Sorting Rig) or a low speed balancer for very large Commercial Vehicle turbos. Any that exceed the tight OEM specification during testing are corrected. So the turbo would have been 100% line tested to OEM specification for noise/vibration when it left our factory.
Noise is a difficult symptom to diagnose, so check the easy things first: ensure that all the air hoses, charge air cooler and connectors/hose clips are not leaking, as that can lead to the hissing sound that you heard. If that does not solve the noise problem, then it is possible that the turbo has been damaged during the installation and start-up procedure. You mentioned that the old turbo was whistling just before it failed:
Did you diagnose the root cause of the damage to the old turbo?
Did you correct any problems that you found?
Did you follow all of the guidelines regarding priming the turbo, oil pipes, oil filter and pressure system with oil before start up?
Did you also allow the turbo to run with the engine at idle speed until the oil pressure and flow was up to normal operating parameters?
If you answered no to any of these, you may have damaged the replacement turbo and it will have to be removed and diagnosed by your supplier.
You are correct, this turbo is fitted with what we call an REA (Rotary Electronic Actuator), which controls the movement of the variable vanes inside the turbine housing giving very precise and rapid control of the vanes to comply with the engine exhaust emissions standards and performance. To ensure this, every individual turbo has to be set-up (precisely calibrated) on a highly accurate turbine flow bench and once it is set, it is set for life. Even loosening the three bolts holding the actuator onto the turbo will destroy that calibration. If the actuator is not functioning (your Garrett Distributor would be able to test and confirm that for you), then it should be replaced by a complete, correctly calibrated turbo
You do not mention which van or engine this is? However, this problem is most often caused by water ingress damaging the electrics inside the sensor. Our warranty covers manufacturing or material defects, but if water has entered the electronics, that is beyond our control. However,there are some suggestions which may help to prevent a repeat of this in future:
Firstly source copies of the vehicle manufacturer’s service bulletins which detail water ingress to the engine compartment. This causes water to run onto many of the engine components causing corrosion of those components (you will notice this clearly) and in particular, water may get inside the wiring harness and run down into the connector block of the Linear Position Sensor on the turbo. If any of the seals on the vehicle wiring harness connector plug are missing or damaged, this will make the problem even worse. During heating and cooling cycles, the water can get drawn in via the connector pins and damage connector pins and/or the internal electronics.
Secondly, the manufacturer’s bulletins also mention moisture collecting in the vehicle’s vacuum system. This also controls the turbocharger’s actuator (the controller for the variable vanes). In these cases, moisture can be drawn inside the actuator under vacuum and again it may destroy the electronics within. The bulletins include suggested modifications to the vehicle to prevent this from happening. If you follow these vehicle manufacturers’ guidelines, hopefully your customer should have no more problems.
We strongly advise against making any changes to a production turbocharger. Our VNT (Variable Nozzle Turbine) turbos are precisely calibrated on turbine flow benches and then the actuators are calibrated, so every individual turbo complies with the OE specification. Any changes could upset the performance and running of the engine and upset the exhaust emissions. It could potentially also cause engine damage. We have some specialist companies who know all about Performance Turbos and contacting one of them may help avoid a lot of trouble!
It is difficult to give a definitive answer for every case, but yes there is potential for a re-chip to damage a turbo. The advice that we offer to anyone considering a re-chip is to ask the supplier some questions:
What is the maximum safe speed of the turbo running in standard condition?
Will the re-chip have any effect on the maximum running speed of the turbo?
What will the maximum turbo running speed be after the re-chip?
Will the warranty on the re-chip cover any damage caused to the turbocharger due to overspeeding?
When we assess a turbocharger warranty claim, we often see very clear physical and metallurgical indicators of overspeeding of the turbocharger. However this can be indicative of over-fuelling; typically something that occurs when the engine has been chipped. Whilst we cannot always say exactly how it happened on the vehicle, evidence of overspeeding of the rotating assembly is often irrefutable.