Ford Ranger Engine Problems

This could be caused by something inside the engine bay rattling or vibrating, but could also be linked to the exhaust system or its heat-shielding doing the same thing. When you hit the accelerator up a hill, the engine and driveline (and exhaust) are suddenly put under a lot of stress which can be passed along any mechanical link or fixture, making things flex or vibrate that don’t normally do so when they aren’t subjected to the same stresses and loads.

When the engine is cold, have a feel around the engine bay to find anything loose or poorly mounted that could contribute to such vibrations. It could be as simple as a poorly located clamp of a loose piece of trunking or internal panelling vibrating against another part. Often these noises will be conveyed into the cabin via the fresh air vents, making them sound even louder.

Just be sure not to confuse a rattle with the normal cacophony of noises a modern turbo-diesel produces as part of operating under load.

This is one of those questions where there are no hard and fast answers. The lifespan of pretty much any automotive engine will be determined far more by the way it’s been used and maintained than any rule of thumb being tossed around the industry.

Vehicles that do mainly highway kilometres tend to last longer since the engine is under less stress than one idling in traffic and then accelerating from every traffic light. The same goes for vehicles that have never had a tow-bar fitted versus one that has hauled a three-tonne trailer every day of its life.

Servicing plays a huge part, too, and a well maintained engine will always outlast one that has had skipped oil changes and other preventative maintenance. Overall, diesels used to live longer than their petrol equivalents, but the extent to which modern turbo-diesels are tuned to deliver power and torque means that’s not always the case these days.

Over the years, we’ve seen these Ranger engines fail at mileages as low as 100,000km, while others make it to 300,000 or even 400,000km while still in good health. Common engine problems to watch out for with this model Ranger engines include failed EGR coolers, contaminated and even blocked inlet tracts, worn turbochargers, DPF problems and failures, leaking and faulty fuel injectors and coolant leaks.

I can see why the internet cohort might be confused by this question (and why your mate at the pub may or may not know what he’s talking about) because it’s a bit of a weird one. For reasons of friction reduction (efficiency) and reliability, the camshafts in the Ford Bi-turbo are driven by a rubber toothed belt. But – and here’s the strange bit – the belt is partially submerged in the oil in the engine’s sump, so it’s a 'wet' timing belt. While the vast majority of other rubber, toothed timing belts run in a 'dry' environment.

Ford reckons this gives the engine the low noise of a conventional rubber timing belt, combined with the low friction running of a conventional `wet’ timing chain. But the high-strength cords and the oil-resistant rubber the belt is made from, says Ford, also mean that it should last a lot longer than a conventional timing belt. While conventional belts should be changed between 80,000 and 120,000km (roughly speaking) the Ford belt is said to be good for 230,000km.

For the record, the Bi-turbo’s oil pump is driven by a second belt of the same construction.

Noisy tappets (also known as hydraulic lifters) are relatively common on engines that have done their fair share of work. By using oil pressure generated from the engine’s oil pump, the hydraulic lifter can adjust to maintain the perfect gap between itself and the engine’s intake and exhaust valves. This improves efficiency and reduces engine wear, so it’s an important job.

Over time, the lifters may become a bit lazy (or weak) and may not be able to maintain that correct gap. At which point the extra clearance causes the tapping sound we associate with worn lifters. Replacement is the solution, and best practice says replace them all at once on the basis that if one lifter is already weak, the rest won’t be too clever either.

However, there’s one thing you can try before that, and that is to give the engine an oil change with a high-detergent (as most diesel engine oils are) content oil and a clean filter. Sometimes, fresh oil will clear out a small piece of grit or rubbish that is blocking the oil flow to a lifter and restore it to full health.

Start with the basics. Is the coolant level correct (and the radiator overflow tank intact)? Are the fan belts that drive the water pump tight and not slipping? Is the electric fan turning on? Is the second electric fan turning on with the air conditioning? Are the radiator hoses in good condition and not collapsing when you rev the engine? Are the car’s brakes dragging and causing the engine to work harder than it should? Is the radiator clean and flowing properly? Is the radiator cap holding the correct pressure? Is there a build-up of mud, bugs and grass on the radiator’s surface? All these things can lead to overheating.

If all that checks out, you might have to dig a bit deeper, including a check of whether the water pump is pulling its weight (and not worn internally) whether the thermostat is operating correctly and even a test to see whether the head gasket has failed. Ford’s Ranger engines have also ben known to experience failures of the Exhaust Gas Recirculation (EGR) valve’s cooler which is part of the overall cooling system. The 2.2-litre and 3.2-litre Ranger engines seem more susceptible to this, but it shouldn’t be automatically ruled out on the 2.0-litre engine.

Any time you have that combination of symptoms, the end result is possibly not going to be very good. Rangers of this year and model have experienced problems in the past that include poor fuel or other fuel-system damage causing a piston to develop a hole or crack, and even things like a failed EGR valve (which is water-cooled in this model) draining the radiator and causing the engine to melt down.

You need to have an experienced mechanic take a look at the vehicle before doing anything else, as there’s a high percentage chance that your engine will need to be rebuilt or replaced. You might be lucky and have a simple problem that is cheap and easy to fix, but plenty of Ranger owners will attest to the slimness of that chance.

On this model, the sensor in question is located on the crankcase (not the cylinder head as many are). You’ll find it on the driver’s side of the crankcase, below the intake manifold. Replacing it involves removing the old one by screwing it out, and screwing the new one in. But there’s a bit of a process for this, and if you’re not familiar with this type of job, it’s probably one for the experts.

The sensor is located between cylinders three and four and it’s located pretty close to the manifold. The good news is that you don’t need to remove the manifold to access the sensor; you can get to it by going into the engine bay through the wheel-well.

Don’t forget that you’ll lose some coolant in the process, so that will need to be topped up with the correct type afterwards. Remember, too, that the new sensor won’t work unless you correctly reattach the wiring plug that connects the sensor to the rest of the car. This area can be pretty grimy and muddy in a vehicle like this, so cleaning everything off first is a good idea.

Your Ranger was sold with a factory warranty that should cover it for the first five years and with no limit on the kilometres covered. Provided you’ve maintained and serviced the vehicle properly (with the paperwork to prove it) then the warranty should definitely be intact.

But whether that warranty applies to an EGR valve is the real question. Ultimately, it will depend on why the valve has failed. That’s because most warranties don’t cover wear and tear, so a build-up of carbon and soot inside the EGR system may not be covered. But if the valve has failed due to a materials or manufacturing fault, then it should, on the surface, be Ford’s responsibility to replace the unit.

If there’s any form of dispute between Ford and yourself on this matter, the best advice is to have the vehicle (and EGR) independently tested (motoring clubs are a good place to start). That way the facts should determine the outcome, rather than opinions.

As an aside, don’t be tempted to drive the vehicle any farther with a coolant leak within the EGR system. Eventually enough coolant will be lost that the engine could overheat. And even before that happens, a leaking EGR valve can allow coolant inside the combustion chamber and the turbocharger with equally devastating results.

Some Ford Ranger owners have reported that the hoses that carry coolant to the engine’s EGR valve have failed, allowing coolant to escape. This is one of the more common ways for this engine to lose coolant.

The problem with no warning showing up on the dashboard has more to do with physics. The warning light is triggered by the temperature of the coolant it’s submerged in. If the engine loses enough coolant, the sensor is suddenly not contacting the hot water and it ceases to give a reading or, therefore, trigger a warning. This is not a Ford Ranger thing, but a common problem faced by car owners over many decades.

Since you’ve replaced the turbocharger and the boost controller, we can rule those out. But could the problem be something much simpler?

It’s possible that the plastic trunking that takes the compressed air from the turbocharger to the engine’s intake has split. When that happens, boost pressure is lost, the boost sensor detects the low boost and winds up the turbocharger to compensate and you have an on-paper overboost situation.

Then, once you’re beyond idle, the leak becomes even worse and the computer simply runs out of turbocharger capacity, at which point boost drops away. That’s preventing the engine revving properly and since there’s no sensor to tell the computer that the trunking is split and leaking, there might not be a fault code issued. Lots of black smoke from the exhaust is often (but not always) another clue that this is what’s happening.