By David Armitage
Diesel is an organic compound, and like a slice of bread, it can go moldy. Mold, a form of fungus, yeasts, and bacteria can grow in fuel over time. Termed “microbiological contamination,” this threat is greater now as the global pandemic has created a reduction in fuel turnover. As fuel is stored and backed up in the supply chain for longer, road haulage and commercial forecourt operations need to take extra care to keep this contamination in check.
While consuming moldy bread may not be an appealing option, it will not actually do you any harm. Microbiological contamination in fuel supplies on the other hand has much more serious consequences on fuel systems and storage tanks. As microbes multiply in the fuel, they can form a biomass layer consisting of billions of organisms. This biomass can block filters, increase injector wear, and even corrode tanks with the organic acid it produces. Worst of all, microbiological contamination can be passed along the fuel supply chain, whether from pipeline to storage tank or fueling truck to retail forecourt. This means that even if a depot experiences high fuel turnover delivering food, Amazon boxes, or other supplies, the overall slump in global fuel consumption across all modes of transport means contamination from the fuel supply chain could still be an issue.
Rachel Harrison at Fueltek Ltd, says, “The ‘diesel bug’ is something that anyone storing fuel in bulk is generally aware of, but maybe not of the increasing risks it poses.”
HOW IT OCCURS
What does this mean for maintenance techs and depot managers? No one wants to add unnecessary activity or cost to operations, but managers need a way to make smart decisions to help prevent the potential of significant remedial costs due to damage caused by microbiological contamination. But why does microbiological contamination occur?
Fuel inherently contains water in some form as soon as it leaves the sterile environment of the refinery. Water can be picked up at any point in the supply chain in pipelines, storage tanks, and fueling trucks. It can also naturally enter storage tanks due to condensation, making it impossible to keep it completely out of the supply chain. Of course, many companies have sophisticated wet stock management with water sensory equipment, but even the smallest amount of water (far from the levels these mechanisms can detect) can do damage.
Couple the presence of even a small amount of water with the use of more sustainable and environmentally friendly fuels, which has led to a reduction in sulphur and addition of biofuels, and the microbiological problem gets worse. While steps can be taken, such as cleaning fuel tanks or dosing them with biocides if the tank is not contaminated, this adds a significant cost to operations. A regular, on-site testing regime using lateral flow devices, however, offers a quick, easy, and low-cost way to ascertain whether action needs to be taken.
ON-SITE TESTING
Immunoassay antibody test kits, such as FUELSTAT® from Conidia Bioscience, are a proven technology to give accurate levels of microorganism activity in a fuel source. Testing can be carried out on-site without the need for in-depth training or investment in sophisticated test readers or other high-tech equipment. The kits require no special handling, storage, or disposal and are safe and easy to use, providing quick results without the need to send samples away for testing. The very nature of how the test works means that there is minimal risk of cross-contamination (unlike if samples are sent away to a lab), results are accurate and completely reliable, and site managers can take control in ensuring they will not be caught with undetected contamination.
Compared with other testing methods or technology to prevent a buildup of microbes, antibody test kits are one of the lowest cost options. With no initial capital investment required, the cost of a kit provides an almost immediate return on investment if it prevents just one unnecessary storage tank clean or biocide dosing or averts an incident where an engine is damaged by the microbiological contamination.
Antibody fuel test kits have been used for many years in the aviation industry where fuel testing has long been a standard procedure, and other bulk users of diesel fuels, such as marine and power generation have followed suit. Most people are aware of the technology, which is widely used in the medical industry, as it is the principal test for the COVID-19 infection. While there is no regulation or mandate to test fuel supplies at garage forecourts or at road haulage refueling hubs, the risks contamination poses—especially at a time when overall throughput in the supply chain is lower—are significant.
A TESTING REGIME
Microbiological contamination can occur at any stage in the fuel supply chain. In any testing process, some important procedures should be followed: Sampling points should be wiped clean with at least 70% alcohol solution or wipe; sampling equipment should be cleaned after each sample is taken; and ideally, a new sampling container should be used for each sample.
If a site begins to use antibody test kits to periodically test fuel supplies, the frequency of this testing can be adjusted as historical results are catalogued. If using FUELSTAT® test kits, site managers will have the added benefit of a free result app, which can be installed on both iOS and Android mobile devices. Users scan the test kit and get instant digital verification of the test results that they can store and share. Managers have access to the report portal to track test results across all their assets in real time.
For companies that employ fuel maintenance contractors, fuel testing is not assured, and the number of cases in the road transport sector of equipment being damaged because of contaminated fuel is increasing.
“A regime of good fuel husbandry and management should be in place,” Harrison says. “And antibody test kits are a useful, inexpensive tool to support this. We have used the antibody testing kits extensively to satisfy our customers’ demands to ensure they are using clean, uncontaminated fuel. They have proved reliable and successful and have added another income stream to our organization.”
REDUCE RISKS
If left unchecked, microbiological contamination can have serious impact on machinery and drivers. Indeed, the damage it can cause to diesel engines, fuel tanks, pumps, and other machinery should not be underestimated. The contamination can be transferred to most middle distillate fuels and will grow if left undetected. Water is the fuel’s worst enemy, and it is good practice to periodically remove as much water as possible from supplies. But testing is the only way to be sure that contamination is not left unchecked and machinery is not damaged. This testing can be carried out by a single person and does not need to be an onerous or expensive task.
Antibody test kits offer a simple, quick, cost-effective way of checking fuel supplies on-site without the need for specialized skills or procedures. For facility or fleet managers, these kits could lower maintenance costs and reduce risks to day-to-day operations. For all drivers, the cost of avoiding catastrophic engine failure on our highways certainly goes way beyond the cost of a lateral flow test kit.
ABOUT THE AUTHOR
David Armitage is the head of business development at Conidia Bioscience. Find out more, visit www.conidia.com.
