By Andrew Marshall, CEO
This past spring, the IMO Marine Environment Protection Committee (MEPC) met for its 81st session where important discussions around ballast water management took place. One of the key topics addressed was the challenges faced by ships operating in areas with dirty or difficult-to-treat water, often referred to as “challenging water quality.”
While ballast water management systems (BWMS) have proven effective in most situations, some ports present unique challenges due to their water quality. These ports, known as ports with challenging water quality (PCWQ), often have high levels of suspended solids, turbidity, or other factors that can get in the way of the effectiveness of certain BWMS.
Operators report that BWMS using filtration as part of the treatment process can experience difficulties with repeated clogging of filter units leading to excessively long ballasting operations.
In other cases treatment may be incomplete or ineffective due to turbidity or high organic loads.
For example, UV-based BWMSs work by exposing the water to UV light, which disrupts the DNA of organisms and prevents them from reproducing. However, the presence of suspended solids, dissolved organic matter or other substances in the water can absorb or scatter the UV light, reducing its effectiveness in inactivating organisms. As a result, ship’s operating in these challenging waters using UV based BWMS may struggle to meet the required discharge standards.
MEPC 81: Addressing the Concerns
During MEPC 81, the Committee continued working on the challenges faced by ships operating in dirty waters and discussed potential solutions. One of the key outcomes was the adoption of the Interim Guidance on the Application of the BWM Convention to Ships Operating in Ports with Challenging Water Quality (Resolution MEPC.387(81) which has taken years of work for all stakeholders to reach consensus.
The PCWQ guidance provides procedures for ships to follow when operating in challenging waters and offers guidance to Administrations, port States and BWMS manufacturers on how to support and oversee ships in these situations. One goal of the guidance is to have standardized steps for crew and port States to follow, and reduce administrative burden when a PCWQ presents BWMS operational issues.
Importantly, the PCWQ guidance is built on the principle that bypassing the BWMS should be the last resort in all cases. This approach emphasizes the need for ships to exhaust all available options before considering a bypass, ensuring that the environmental objectives of the BWM Convention are supported. Further, should a bypass be deemed necessary, the guidance includes procedures that are implemented to decontaminate the vessels ballast tanks and piping system to support returning to D-2 compliance.
Case Study: Adapting to Challenging Waters by using Ecochlor’s EcoOne® Hybrid BWMS
To illustrate how ships can overcome the challenges posed by dirty waters, let’s look at a recent case study involving our team at Ecochlor. We recently completed a project on an articulated tug-barge (ATB) that required the replacement retrofit of an installed UV BWMS. The vessel’s frequent operations in shallow, muddy water conditions presented significant technical challenges for their existing UV-based system.
We addressed these challenges by installing our EcoOne® hybrid BWMS, utilizing ClO2 treatment, which offers the option of automatically disengaging the filter when not in a PCWQ and reengaging it when the water conditions improve. This feature allows the system to adapt to the ship’s trade route, which includes ports with varying water types, without compromising performance.
Additionally, given the crew’s large number of responsibilities at port and their limited expertise in operating this type of heavy equipment, it was crucial that the system was easy to use and had reduced operational demands. Our BWMS met these requirements, ensuring that the crew could operate the system effectively without adding unnecessary complexity to their workload.
The Way Forward: Collaboration and Innovation
Moving forward, collaboration and innovation are going to be key in tackling these PCWQ. BWMS manufacturers, like Ecochlor, are working hard to continually improve their systems and offer alternative solutions to better suit different ship’s needs. But it’s not just up to the makers – shipowners, operators, port authorities, and regulators all need to work together to implement effective ballast water management strategies.
Most important, by sharing our knowledge, experiences, and best practices, we can overcome these challenges together. So, let’s keep those lines of communication open and work towards better, more efficient operations for the vessel and a cleaner, safer maritime environment for everyone!