In yet another move towards a more sustainable, efficient fleet, Odfjell has installed ballast water systems on all owned vessels. The benefits are significant.
To stabilize the ship and maintain an even keel, ships often pump water into ballast tanks. This ballast water is necessary for safe and efficient maneuvering, but has posed a threat to marine ecosystems: unfiltered sea water contains living organisms which, when moved from their natural habitat and released in new waters, can change and potentially damage the local marine environment.
To reduce this threat, the IMO (International Maritime Organization) and the US Coast Guard have implemented regulations for sterilizing ballast water. Odfjell welcomes this sustainability initiative and is currently installing UV sterilization systems on all owned ships.
Removing unwanted organisms from seawater is a complex and costly process for a shipowner. The industry needs to implement regulations that will be immediately effective, and continue to be so well into the future. Discussions on how best to achieve this have been ongoing for years, but an agreement on mutually approved solutions has, so far, proved elusive.
Odfjell has been working on a ballast water system upgrade since 2007, and has followed the US Coast Guard’s regulations which were implemented on January 1, 2016. Since then, the Coast Guard has approved several ballast water treatment solutions.
“Nowadays, there is no excuse not to meet the treatment requirements. When we started this project, no systems were industry approved, so we had to evaluate them based on technology and our own criteria and specifications”
Veine Huth, Project Manager at Odfjell Ship Management.
Choosing the UV solution
The available system choices are all based on variations of three technologies:
- Ultraviolet (UV) filtering
- Chemical injection
After careful research, testing and future-proofing, Odfjell chose the UV solution. Huth said:
“There were many reasons for choosing UV, but first and foremost: UV is a simple and commonly known solution. It does not create any by-products or involve the use of special chemicals. There is no added logistics, as with the other alternatives. One of the key factors when choosing this system was how it would affect our crew. The UV system is well known, efficient and intuitive to manage for our colleagues on board. Also, it works in any type of water, from the Mississippi River to the Pacific Ocean”
This solution requires installing a new deckhouse on the ship to house the UV filter. The ballast water is routed through this filter, damaging the organisms’ DNA. The organisms die within a few days, leaving the water clean from potentially eco-damaging elements. Larger organisms, small fish, etc., are removed and released back into the sea before the UV filter process begins.
Installation in progress
Choosing the UV solution was the first step. The next was selecting the best vendor.
“A UV filter may be simple, but the technology and material specifications are complex. The material has to endure warm salt water, which corrodes metal. The reactors we have chosen are made of a special stainless steel. These cost more, but last longer than the alternatives”
The actual building process involves several parties. All installations are built at a yard in China, and the building itself takes around ten days. But this is just the last piece of the puzzle; all pipes and parts are prefabricated using the latest 3D scanning and measuring technology.
“We use advanced digital technology, and this saves us a lot of time. The 3D experts are involved before and during the installation, ensuring that all measurements are accurate to within the millimeter on each and every ship.”
The installation of the ballast water system on the fleet is in full swing, with 14 ships upgraded since 2018, and 11 installations planned for 2020. All owned ships in Odfjell’s fleet will have the UV system installed by 2023. When installed, the system is expected to work for the rest of the ship’s sailing years.
Compared to the alternatives, the UV solution does not involve major changes to the vessel’s infrastructure or its daily operations. On the contrary – not only is the UV solution eco-friendly, it also significantly boosts efficiency, Huth concludes:
“The world’s oceans are divided into zones. Before crossing zones, ships have to pump out all the ballast water in the old zone and refill in the new zone. All ships have to perform this ballast water exchange. This is time-consuming and adds to the workload on board. When the UV solution is installed, this process is eliminated, saving voyage time and work hours. It’s a win-win solution.”
- Ballast water is water carried in ships’ ballast tanks to improve stability, balance, and trim. It is taken up or discharged when cargo is unloaded or loaded, or when a ship needs extra stability in poor weather.
- Ballast water may be taken on board by ships for stability and can contain thousands of aquatic or marine microbes, plants, and animals, which are then carried across the globe.
- The International Convention for the Control and Management of Ships’ Ballast Water and Sediments (BWM Convention) was enacted in 2004 to introduce global regulations to control the transfer of potentially invasive species. With the treaty now in force, ships need to manage their ballast water. The BWM Convention was ratified on September 8, 2017.
- Under the Convention, all ships in international traffic are required to manage their ballast water and sediments to a certain standard, according to a ship-specific ballast water management plan. All ships have to carry a ballast water record book and an international ballast water management certificate.
- Examples of invasive species that need to be eliminated are cholera bacteria, the Asian Kelp, the European Green Crab, and the North Pacific Seastar.
- The deckhouse hosting the UV filter system measures 3.3 x 7.2 meters and is three meters high. It is located in front of Accommodation on the ships.
Sea News Feature, January 7