Tuning the BMW M47
"All you need to know about performance tuning the BMW M47 engine!"
Carref prides itself on providing the latest tips and guides to your modification project.
The BMW M47 are good project engines and with the optimum sports parts like ECU maps, turbo improvements and camshafts you will noticeably maximize your driving enjoyment.
This pages aim is look into M47 tuning and provide tips on the best mods that work.
We rely on our visitors to pass on tips and tell us about their projects and what worked on their car, and this article is the culmination of the feedback we have received. First let us look at the history and specs of this engine and then consider which tuning modifications work best on it.
History of the Engine
M47D20
- 85 kW (114 hp) 195 lb⋅ft)2001-2003 E46 318d
- 100 kW (134 hp) (207 lb⋅ft)1999-2001 E46 320d
2000-2003 E39 520d
M47R
Transverse engine with Rover and Steyr based on M47 design.
- 1999-2004 Rover 75 CDT
- 1999-2005 Rover 75 CDTi
- 2001-2006 Land Rover Freelander
- 2001-2004 MG ZT CDT
- 2001-2005 MG ZT CDTi
M47TUD20
- 85 kW (114 hp) (207 lb⋅ft)2003-2005 E46 318d
- 110 kW (148 hp) (243 lb⋅ft)2001-2005 E46 320d
E83 X3 2.0d (up to end of 2006)
M47TU2D20
- 90 kW (121 hp) (207 lb⋅ft)E87 118d
E90/E91 318d - 120 kW (161 hp) (251 lb⋅ft)E60/E61 520d
E87 120d
E90/E91 320d
E83 X3 2.0d (end of 2006 onwards)
Tuning the BMW M47 and best M47 performance parts.
What are the most effective M47 parts
Just because particular modifications are popular with M47 owners it doesn't mean its worth having, we shall best modifications that will give your M47 the biggest power gain return for your cash.
The camshaft profile plays a big part in the engines power output so camshaft upgrades make quite a large difference. The intake and exhaust durations will alter depending on the chosen camshaft profile, so large power band gains are on offer for camshaft upgrades.
Fast road cams usually push up the performance through the rpm band, you could drop a little low end power but higher rpm power will be lifted.
For a typical daily driver you need to optimize your bhp range to your cars usage.
The map and fuelling also will say much on the bhp gains you'll make.
A longer valve duration can alter the bhp band and on most engines the exhaust and intake durations do not need to match, although most cams and tuners use matched pairs there are some advantages to extending the intake or exhaust durations.
Please watch our introduction Video tutorial to car tuning. Be sure to subscribe and support our new channel.
How to tune your car
- Improve the handling
Focus on Suspension improvements, such as coilovers and make sure the bushings are in good order and that the alignment is correct. Then focus on improving the brakes, with a big disk brake conversion kit and fast road brake pads.
- Remove restrictions
Focus on the intake and exhaust with filters being the common point of restriction in a tuned car. Intercoolers may also become restrictive on turbo engines so this may also need to be uprated.
- Burn more fuel & air
Increase the fuelling so it matches the air coming into the engine. The ratio is important so you need to improve the fuel pump and injectors, so the head mods, big valve conversions, fast road camshafts and forced induction upgrades extra supply of air is adequately met.
- Test and replace any weak parts
Weak areas are commonly the clutch, the turbocharger and pistons and crankshaft in a highly tuned engine. Makes sure these components will cope with your power aspirations.
- The Tune or Remap
A cars ECU controls the fuel, timing, spark and even the turbo in some cases, so to fully extract your gains you should remap the car last and this will fully release the power. Some cars are easy to map, and others require piggyback ECU's or aftermarket ECU's but this is the most vital step of your tuning project.
Modifying to Stage 1:
Sports exhaust manifold, Intake headers, Fast road camshaft, Panel air filters, Drilled & smoothed airbox, Remaps/piggy back ECU.
Modifying to Stage 2:
Fast road cam, Ported and polished head, high flow fuel injectors, induction kit, fuel pump upgrades, Sports catalyst & performance exhaust.
Modifying to Stage 3:
Engine balancing & blueprinting, Competition cam, Adding or Upgrading forced induction (turbo/supercharger), Twin charging conversions, Internal engine upgrades (head flowing porting/bigger valves), Crank and Piston upgrades to alter compression.
Mapping should help to release the full potential of all the modifications you've done to your M47.
It will usually give around 30% more power on turbocharged vehicles and you can expect to see around 15% on NASP engines, but the outcome will depend much on the modifications you've applied and the condition of your engine.
Feeding air into the M47 engine is the aim to any engine upgrade task.
Air Intake manifolds take the air from the intake filter and allow it to be pulled into the engine cylinders with fuel for the squish phase.
The bore size, shape and rate of flow of the Plenum can make a large effect on to fuel atomisation on the M47.
We often see intake are in desperate need of aftermarket tuning parts, although some car makers provide decently flowing intake.
Larger M47 valves, doing a bit of port matching and head flowing will also improve performance, this will make space for a better performance increase on other tuning parts.
Which turbo upgrades are best?
NASP engines need quite a lot of work when you add a turbo, so we have a separate guide to help you take into account the pros and cons of going this route on your M47
The more air you can get into an engine, the more fuel it can burn and uprating the induction with a turbocharger upgrade makes superb power gains.
If an engine is fitted with a turbocharger tuning mods are giving better power gains and turbocharged engines are made using better components.
However every engines have limits
Research these restrictions and fit stronger pistons, crank and engine components to cope with the power.
It's not unheard of mechanics spending a lot of money on turbocharger upgrades on the M47 only to have the engine throw a rod just after it's finished.
Large upgraded turbo units tend to experience no power at low rpm, and little turbo units spool up quickly but do not have the high rpm power band gains.
In the last 10 years the world of turbochargers is always moving on and we now see variable vane turbochargers, permitting the vane angle is altered according to speed to lower lag and increase top end bhp and torque.
Twin scroll turbochargers divert the exhaust gases into a couple of channels and flow these at differently designed vanes in the turbo. They also help the scavenging effect of the engine.
You'll commonly see there is a limit in the air flow sensor AFM/MAF on these engines when loads more air is being drawn into the engine.
Going up you'll find 4 bar air sensors coping with quite large power gains, whereas the OEM air sensor sapped bhp and torque at a much lower level.
Adding a supercharger or additional turbo will make large bhp and torque gains, although more complex to configure. We have this guide to twinchargers if you want to read more.
Fuelling
Don't forget to look at the fuel delivery when you are increasing the torque - it makes the car more thirsty. When it comes to your injectors capacity and flow rate you need some spare capacity, so don't calculate which injector and fuel pump setup will match your needs exactly or you'll have flat spots and fuelling issues and problems.
As a rule of thumb add another 20% when specifying an injector, helps cope with injector deterioration and affords a little spare capacity should the engine need more fuel.
We think this one is common sense, but you'll need to match your fuel injector to the type of fuel your car uses as well.
Choosing the right performance exhaust
One of the most common mistakes and problems we see in tuning projects is usually down to the exhaust, or rather a poorly chosen exhaust for your engine.
You may need to improve your exhaust if the current exhaust is actually creating a flow problem.
On most factory exhausts you should find that the exhaust flow rate is still good even on modest power gains, but when you start pushing up the power levels you will need to get a better flowing exhaust.
Sports exhausts can help increase the flow of gases through the engine.
But if the exhaust pipe is too large, ie: it's over 2.5 inches bore, you will lose a great deal of the flow rate and end up losing power and torque.
Typically exhaust restrictions can be traced to the catalyst installed, so adding a faster flowing performance alternative will help avoid this restriction.
Weak spots Issues & problem areas on the M47
The M47 engines are generally reliable and solid as long as they are regularly serviced and maintained.
Swirl flaps are prone to breaking and can cause serious engine damage. Many owners get these removed as a precaution.
DMF failures are common, especially when the DMF is not replaced at the same time as the clutch.
Regular oil changes are vital on the M47, especially when tuned and will help extend the life and reliability of the engine.
For more information on Tuning your M47 engine please join us in our friendly forum where you can discuss tuning options in more detail with our tuning articles to get a full grasp of the benefits and drawbacks of each modification.
Please help us improve these tips by sending us your feedback in the comments box below.
We love to hear what our visitors have got up to and which mods work best for them on each model of car. Comments are used to improve the accuracy of these M47 articles which are continually updated.
If you liked this page please share it with your friends, drop a link to it in your favourite forum or use the bookmarking options to save it to your social media profile.
Check out TorqueCars new YouTube channel, and see their awesome new content...
Feedback
Please use our forums if you wish to ask a tuning question, and please note we do not sell parts or services, we are just an online magazine.
Help us improve, leave a suggestion or tip