
You may have heard the phrase, “they are more scared of you than you are of them” in reference to stray minibeasts, however the diesel bug is a fearless and ruthless specimen.
With over 80% of diesel engine failures attributed to fuel contamination (colloquially known as the diesel bug), it is clear to see why.
But what is it?
Many bacteria live in fuel, the most prominent being microbial contamination, otherwise labelled diesel bug. In a matter of minutes, the bug multiplies, feeding on hydrocarbons and can cause complete chaos for fuel filters, pump and injectors, potentially leading to complete engine failure. These bugs feed on both diesel and water; two elements necessary to their survival. From condensation to rainwater leakage, there are numerous ways in which water can enter your fuel. As modern diesel (especially biodiesel) is a significantly more hygroscopic fluid, an increasing amount of water is present for the bugs to thrive. As diesel changes hands several times throughout the refinement process before reaching the end user, there is plenty of chance for particulate contamination to get its claws into your fuel.
What indicators should you be on the lookout for as a vehicle owner?
The Contamination Domino Effect – How Does Diesel Bug Impact Vehicles?
- Contaminated fuel is delivered through the fuel injectors.
- The contaminated fuel begins to deteriorate the injector valve.
- Fuel pressure through injector nozzle is reduced and fuel volume likewise decreases.
- Engine ECU increases fuel load to compensate for failures of other components.
- Reduced fuel atomisation and soot begins to generate within the cylinder.
- Emissions increase and power levels begin to notably drop.
- Injector partially fails and daily wear and tear continues.
- Fuel consumption increases and becomes far less economical.
- The driver of the vehicle notices obvious signs of engine distress.
- The engine reaches complete injection failure.
Do Not Ignore Your Check Engine Light – Ignorance Is Not Bliss!
Listening to your vehicle is all too often side-lined. Many hold the belief that the issue will rectify itself with no intervention. With every day that passes, your engine could be another step closer to failure as the contaminated fuel makes its mark. It could be something simple like a loose fuel cap, however if it is more sinister, basking in ignorance could lead to a hefty repair bill.
So, if your check engine light (otherwise known as the malfunction indicator lamp) illuminates your dashboard, take note of any abnormalities and schedule an inspection for a diagnosis as quickly as possible. Dependant on the vehicle manufacturer, some will blink or turn red to indicate a more serious engine issue. In this instance, it is recommended that you pull over immediately and call vehicle recovery.
Has Your Fuel Pump Failed?
There is a symbiosis between your fuel filter and pump, needing one another to function effectively. If your filter has remained congested for extended periods of time repeatedly, your chances of pump failure are significantly higher. If your filter is neglecting to do its job, more pressure is put on your pump, forcing it to work harder than usual to deliver fuel to the engine. As you accelerate, the strained pump would be unable to distribute the required flow of fuel.
Noticeable symptoms of failure range from loss of power when accelerating and sputtering at high speeds, to power struggles on inclines and even engine failure. If your pump reaches the point of failure, unfortunately a quick fix is out of the realms of possibility. Therefore, noticing the small signs is crucial.
Congested Fuel Filters
Arguably the most prominent indicator of fuel contamination, are clogged fuel filters. As the name suggests, the purpose of the filter is to separate unwelcome and potentially damaging particulates and debris from the fuel prior to it reaching the engine. The presence of contaminated fuel is guaranteed to block your filters. This could potentially lead to insufficient fuel levels reaching the engine and subsequently, poor performance.
If you notice your vehicle is underperforming, is slow to start, frequently stalls or misfires, contaminated fuel could be present. Likewise, if a lack of fuel is reaching the engine and disrupting the standard combustion cycle, your vehicle could overheat. If you’ve not checked your fuel filters within the manufacturer recommended timeframe, book in for a health check. Don’t forget, the older your vehicle, the more often your filter changes should be!
Injector Failure – Knowing the Signals
The driver will rarely notice a partial injector failure until it becomes a far larger and more costly issue. While the vehicle remains functional, behind the scenes, engine performance and fuel efficiency are gradually plummeting. Symptoms can span from reduced RPM, poor power performance and increased fuel consumption to unnerving sounds, smoke and deficient start up. Without specialist equipment, diagnosing partial injector failure is extremely difficult, hence why the issue often progresses to complete injector failure.
Before manufacturing, diesel injectors are equipped with tolerances which impact their functionality once in action, maintaining reliability and consistency. For instance, if the injector fails and no longer adheres to the set tolerance, the spray trajectory of the fuel is impacted, diminishing engine performance. If the diesel bug takes hold, the tolerances set by the manufacturer can be altered, introducing corrosion to the metal with prolonged exposure, a key ingredient to engine failure.
Prevention Is Always Better Than Cure – How Can You Minimise Risk to Your Diesel Storage Tanks?
Conduct Regular Tank Checks
If you are in the preliminary stages of selecting a fuel storage tank, choose an appropriate material that is compatible with diesel, such as steel or fiberglass, making sure it is specifically designed for fuel storage. Ensure the tank is properly sealed to prevent moisture and contaminants from entering.
Over time, your storage tank will amass a build-up of waxy sludge, a cesspit for bacteria. When the temperature of the diesel fuel is lower than the dew point of the surrounding air, moisture can accumulate and condense on the inner walls of the fuel tank. As water condenses within the tank, the sludge is formed, collecting at the base. This issue is particularly prominent as the fuel sits in storage tanks filled below maximum level. With room for air above the diesel, the tanks become a breeding ground for the hellacious diesel bug along with the hazardous by-products they create. Keeping the tank as full as possible reduces the space available for air and lowers the chances of condensation. However, you should always leave some space for fuel expansion.
Adequate ventilation is also essential for diesel storage. It helps to dissipate any vapours that may accumulate and prevent the build-up of potentially explosive fumes. However, be cautious about excessive airflow that can introduce moisture into the storage area. If you have long-term storage requirements, consider implementing a fuel turnover plan. Diesel fuel should not be stored for excessively long periods, as it can lead to degradation. Use the oldest fuel first and replenish your supply regularly to maintain fuel freshness.
Even so, if you are a conscientious diesel owner, you can carry out visual checks on your tank. Here’s what to keep an eye out for:
- Turn your attention to the pipework – Is there any corrosion or premature rusting? This check is particularly crucial. If rainwater enters, the wet conditions will allow your tank to become a hotbed of diesel bug activity.
- Analyse the tank itself – Are there any cracks or bulges in the body?
- Look for any staining – Do you see any dampness to suggest a leak?
- Don’t underestimate the power of the sun – Has your tank is faded due to exposure?
- Stop and smell the tank – Are there any odours to insinuate a leakage?
Be Aware of Temperature Fluctuations
Temperature can have a significant effect on diesel fuel, particularly in terms of its viscosity and ability to combust properly. As the winter months strike, the risk of contamination increases and the paraffins within your fuel can transform from their usual liquid form into a solid. Diesel fuel is naturally thick and viscous, and this thickness can increase in cold temperatures. When diesel gets too thick, it can clog fuel lines, filters, and injectors, which can cause engine failure down the line. This is why it is important to use a winter-grade diesel fuel in colder temperatures, as it has a lower viscosity and is less likely to clog.
Temperature can also impact the stability and longevity of diesel fuel during storage. When diesel is stored in very cold temperatures, it can cause the formation of wax crystals. These crystals can likewise clog fuel filters and injectors once the fuel reaches the end user.
In contrast, you should also not take your fuels safety for granted during the warmer months. Diesel bug could still strike! As opposed to winter where cool temperatures are consistent, the remainder of the year brings with it warm afternoons and cooler evenings. High temperatures can accelerate the degradation of diesel fuel, leading to the formation of sediments, microbial growth, and reduced fuel quality. If possible, it is advisable to store diesel fuel in shaded areas to minimize exposure to direct sunlight and high ambient temperatures.
Do Not Wait Until the Eleventh Hour to React
Finally, do not hesitate to act. As we mentioned above, a potentially small issue could be magnified if left, adding fuel to the fire. Whether the solution involves flushing the tank and subjecting it to a deep clean to relieve it of contamination or the job of cleansing and filtering the fuel itself, there is no time to waste.
Has the dreaded diesel bug has caused your injectors or pumps to bite the dust?
As authorised distributors for the likes of Delphi Technologies, Bosch, Denso and Perkins, along with over 75 years of experience in the diesel fuel injection industry, we’ve got you covered.
Click here to view a full range of replacement fuel injection components.