SMM 2012: Voith Optimizes Vessel Propulsion Control System
Voith displays a functional model of the new vessel propulsion control system for Voith Schneider Propellers and Voith Radial Propellers at the SMM in Hamburg.
The new system offers various new electronic control and assistance features including faster actuation and more precise control of the propulsion systems, remote diagnostics via the internet and communication through a range of interfaces. The new control system will be supplied for the first time in the last quarter of 2012 and will be available as a series product from mid-2013 onwards.
To meet customer requests for a control and propulsion system from one source, Voith for the first time developed the entire control system in-house. This comprehensive solution is underlined by the uniform Voith design of the bridge components: Joystick, steering wheel and propulsion control lever were developed in cooperation with Stuttgart University taking into account ergonomic characteristics. Voith already has a successful record of cooperation with the university during previous projects such as the Voith Radial Propeller since the Stuttgart University degree course “Design” requires a degree in engineering. This ensures that the focus is not just on esthetic and haptic aspects but also on optimum handling as well as on functional issues.
Integrated, open architecture
Thanks to the integrated architecture of propulsion and control system, Voith now enters the market as a system supplier. This results in faster response times for customer-specific solutions, lower expenses incurred for interface adaptation as well as reduced costs for commissioning.
To monitor the propulsion units, the new control system records all data as well as faults. Monitoring can be done from the bridge as well as from the machine or propeller room. In addition, the new electronic control and assistance features lower the fuel consumption of the propulsion units. The control features can be tested on Voith’s own vessel simulator. Open interfaces to external systems ensure that existing components can continue to be used. Communication is via interfaces such as CAN bus, Modbus TCP/IP, Modbus RTU, Profibus DP or NMEA.
Practical implementation of the new control system will be in the last quarter of 2012 for a double-ended ferry as well as in the first quarter of 2013 for an OSV (Offshore Supply Vessel). The series start is planned for the beginning of the second quarter of 2013.
“With our new modular, open hardware and software architecture, the Voith Schneider Propellers and Voith Radial Propellers will be controlled even more efficiently“, says Dr. Dirk Jürgens, head of Research and Development at Voith Turbo Schneider Propulsion. “The new control system makes perfect use of the specific properties of Voith propulsion systems. This is particularly beneficial for vessels and floating platforms which require exact control and highly precise dynamic positioning even in rough seas.” Examples for such applications are tugs, ferries, OSVs, oil platforms as well as special ships such as passenger barges, buoy tenders and floating cranes.
SMM Hamburg 2012
On the SMM in Hamburg, Voith Turbo presents the new control system as a trade show model together with the newly designed bridge components in booth A4.203. The control system will be linked to a simulator to allow interactive steering of a Voith Water Tractor as well as of a functional model propeller.
Voith Turbo, the specialist for hydrodynamic drive, coupling and braking systems for road, rail and industrial applications, as well as for ship propulsion systems, is a Group Division of Voith GmbH.
Voith sets standards in the markets energy, oil & gas, paper, raw materials and transportation & automotive. Founded in 1867, Voith employs more than 40,000 people, generates €5.6 billion in sales, operates in over 50 countries around the world and is today one of the biggest family-owned companies in Europe.
Source: Voith, September 6, 2012