Pioneering Intertrac software enables tailoring of advanced International® hull coatings to specific vessel operations
Thursday, April 3, 2014
AkzoNobel’s Marine Coatings business, the producer of advanced International® hull coatings has developed Intertrac, the shipping industry’s first, patented applied for software system that enables ship owners and operators to accurately assess and predict the risk of hull fouling dependent on the route their vessels are transiting.
Born in 2011 and trialled with customer partners since February 2013, Intertrac overlays a vessel’s route, speed and location data with a comprehensive fouling challenge data set enabling coating specifications to be tailored specifically to suit an individual vessel’s operations and trading routes. This ensures effective cost management for hull coatings, as well as maximizing a vessel’s operational efficiencies.
Intertrac divides the world’s oceans and coastal waters into 64 “large marine ecosystems”, each with its own fouling risk and characteristics including salinity, temperature, thermal range, seasonality and typical pH levels. Analysis of these variables has enabled the company’s research and development scientists to assign each region with a level of fouling risk split into five categories; very low, low, medium, high and very high.
Intertrac uses data that is provided by a vessel’s Automatic Identification Systems (AIS) – information that is available in the public domain – to establish operating profiles. Identified either by name or IMO number, a vessel’s historical record of activity over a certain period can now be mapped using the Intertrac software. A fouling risk profile is developed for each vessel, helping ship owners and operators to quantify the hull fouling challenge that a specific vessel has faced whilst in operation.
Mike Hindmarsh, Global Marketing Manager for Deep Sea Dry Docking says: “Intertrac is unique in that as well as tracking vessels it can also overlay detailed fouling risk assessment from across the world’s oceans and coastal regions.
“By combining details of a vessel’s voyage – both geographically and in terms of operating profile – with an analysis of the fouling challenge in the regions where she has traded, we can provide our customers with detailed information on the level of fouling risk that they face. From this, we can deliver real consultancy for our customers, and recommend the optimal choice of antifouling coating specification, ensuring cost effectiveness and maximizing their levels of operational efficiency.”
Hindmarsh continues: “For example, if a vessel was trading for long periods in cold northern waters where the fouling challenge is low, it is appropriate to reduce the antifouling coating specification and save money by doing so. Seasonality is an important variable, but Intertrac automatically tracks the time spent and the months involved.”
Over a specified period – such as a vessel’s last in service period since dry dock – a vessel’s trading profile detailing every voyage can be plotted, giving total sea miles, average sea miles per month, average draft and speed and importantly, the duration and frequency of time spent idle as well as time spent sailing above or below a certain speed. Whether or not a vessel was loaded on a certain voyage is also tracked.
Hindmarsh concludes: “As thousands of vessels are consistently deployed in certain trades, and on certain routes, the Intertrac analysis is already proving popular. Indeed, an oil major has already requested that International Paint carries out a complete fleet-wide fouling risk exercise across all of its ships. In relation to hull coatings it fundamentally shows the importance of continually investing in research and development and turning to new innovations and technology to drive progression so that we can provide ship owners and operators with the precise solution that can help to solve the specific challenges that they face.”
Contact us
We are here to help
Speak with one of our experts to discuss how we can get the best results for your area of application.