Biofouling occurs when aquatic organisms accumulate on vessel hulls. Their growth creates hydrodynamic frictional drag that leads to vessel inefficiency. More fuel has to be burned to maintain operations, increasing both shipowner OPEX and emissions to air. In fact, according to the IMO, world fleet fuel consumption (and corresponding emissions) could fall by as much as 10% with better hull and propeller management.
The need for change
Although the IMO and world shipping is tackling invasive species through regulations regarding ballast water management, biofouling has yet to receive the same attention (despite evidence suggesting it’s a far greater problem – a study from New Zealand attributed over 70% of invasive species to biofouling, with only 3% originating from ballast water).
“New Zealand, Australia and California have initiated their own requirements and that shows the beginning of a ‘trend’, with these frontrunners leading the way for the rest of the industry,” he states. “However, collective action is necessary to create one standard that all must adhere to, and that has to come from the IMO… soon. This is a regulatory loophole that must be closed. Our world needs that, and society, driven by increased environmental awareness, will demand it.”Win win win
But, he adds, shipowners shouldn’t see this as a burden, more of a “huge opportunity.”“Effectively dealing with biofouling is a win-win-win,” Enge states. “Clean hulls mean optimised fuel efficiency and that greatly reduces operational cost. That in turn means less emissions to air and a better environmental profile. Then, of course, there’s no invasive species spread, and that is essential for the well-being of our marine ecosystems. It is, quite simply, a ‘no brainer’.”
Time to get proactiveHowever, better in-water hull cleaning solutions are needed to tackle the challenge effectively, with some current practices arguably exacerbating the problem they’re meant to address. For example, Enge says, manual diving teams and remotely operated machinery that scrub hulls often simply dislodge biofouling into the water, effectively facilitating invasive species spread. The process can also damage a vessel’s anti-fouling coating, releasing potentially toxic biocides into the water. Because of this, cleaning with capture or offshore is certainly preferable, he imparts, but for the optimal solution, the industry needs to be ‘proactive’.
“The best approach is definitely a proactive cleaning solution,” he states. “If you stop organisms from growing in the first place you prevent the problem, simple as that. That means neither the shipowner nor the environment ever has to pay the price for the transportation of biofouling. At Bellona we’d like to see more work on this – solutions that act as guardians for both vessels and nature, helping this industry move more sustainably into the future.”Bellona is an independent non-profit organisation dedicated to tackling climate challenges and help facilitate sustainable environmental solutions. Founded in 1986, the foundation is headquartered in Oslo with international offices in Brussels, St Petersburg and Murmansk, Russia.