Kongsberg Introduces ‘Integrated Vessel Concepts’

Business & Finance

Kongsberg Maritime has launched a new portfolio of fully ‘Integrated Vessel Concepts’ designed to harmonise handling, operations and energy systems on a wide range of specific vessel types.

The concepts are the product of the company’s new ‘Integration’ strategy, which has been established this summer to leverage existing and new Kongsberg technology to achieve tangible operational efficiency improvements.

With its new integration strategy applied to specific vessels, Kongsberg said it has created a new level of integration to enable more dynamics and distributed power management between disparate systems on board. The first set of vessels types to receive Integrated Vessel Concept configurations cover a wide spectrum of maritime operations. Vessel types include: Container, Forage Carrier, FPSO, Inspection Maintenance & Repair, Research, Ro-Pax, Shuttle Tanker, Small Scale LNG, Superyacht, Trawler and Wind Farm Support.

To facilitate Integrated Vessel Concepts, Kongsberg is further developing its scope of supply to the global shipbuilding industry with focus on electrical systems including switchboards and drives. Electrical systems will be fully integrated with on board technology. With integration between disparate systems, distributed power management, data sharing on board and ashore can be significantly approved, facilitating enhanced decision making across the operational chain.

Though purposely designed for a broad range of vessel types and customisable to specific requirements, several specific new systems have already been developed for use within Kongsberg’s Integrated Vessel Concepts. These include for the first time, the vessel dynamics integrated into the power management layer, providing a new concept for Energy Control. Integrating all elements of the power plant to the energy control layer and distributing control functions closer to the consumers with fast acting sensors, redefines the definition of efficiency.

Dynamic Load prediction (DLP) – a new DP system to predict power usage for a vessel’s thrusters, Dynamic Inertia Control (DIC) and Dynamic Supervision & Control (DSC) are some of the new features enhancing energy control for DP (Dynamic Positioning) Operations. Solutions for power plant optimisation include power regeneration using permanent magnetic electric motors for rotating equipment and enhanced battery solutions for peak shaving and storage. Examples include systems for vessels with large rotating equipment like winches and electric gangways, which are designed to convert motion into power.

“A primary driver for the development of our Integration strategy and Integrated Vessel Concepts is conservation and predictable utilisation of energy, resulting in lower fuel consumption and the associated environmental benefits. However, we also want to create ‘free’ energy for hybrid or even fully electric power configurations, which are now becoming more viable due to less expensive batteries and more sophisticated power management,” said Srinivas Tati, vice president, Business Development, Kongsberg Maritime. “Our approach to integration goes much deeper though. We have studied in-depth how different vessels operate to understand how the unification of on board technologies can change how we think about and conduct maritime operations at every level.”