Motion sensing on vessels operating in sea ice: A local monitoring system for transit and stationkeeping operations under the influence of sea ice

The diminishing sea ice in the Arctic and Antarctic could lead to a higher number of ship operations in these areas, such as cargo transit, resource exploration, fishing, and tourism. However, despite the sea ice reduction, sea ice remains the predominant risk during ship operations. Due to the remo...

Full description

Bibliographic Details
Published in:Volume 8: Polar and Arctic Sciences and Technology; Petroleum Technology
Main Author: Heyn, Hans-Martin
Other Authors: Skjetne, Roger, Sørensen, Asgeir Johan, Løset, Sveinung, Blanke, Mogens
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: NTNU 2019
Subjects:
Online Access:http://hdl.handle.net/11250/2611143
Description
Summary:The diminishing sea ice in the Arctic and Antarctic could lead to a higher number of ship operations in these areas, such as cargo transit, resource exploration, fishing, and tourism. However, despite the sea ice reduction, sea ice remains the predominant risk during ship operations. Due to the remoteness and fragility of the polar regions, accidents are difficult to handle and could have devastating effects on the local ecosystem. Therefore, continuous assessing of the prevailing ice conditions is essential to operating vessels. Individual sensor systems, called ice monitoring systems, provide the necessary information for the ice condition assessment, and by giving early warnings, these systems reduce the risk of accidents. A reliable ice observer system employs several technologies for ice monitoring such as optical cameras, radar systems, drift buoys, and hull strain measurements. Each additional technology increases the chance of early detection of dangerous ice conditions, and additionally adds redundancies to the overall system. The aim of this thesis was to present and validate an applicable ice monitoring system that can increase the safety for vessels operating in polar regions. This thesis presents a series of studies, presented as a collection of journal papers, that lead to an on-board motion sensing based ice monitoring system for ships, which bases on distributed measurements of ice-induced vibrations in the ship’s hull. The results of this thesis are based on field data collected during four Arctic cruises performed between 2015 and 2017. An initial study established a relationship between the prevailing ice conditions and ice-induced vibrations in the ship’s hull. A detailed frequency analysis of ice-induced vibrations concluded that accelerometers in the hull can provide information about the acting ice breaking mechanism, ice conditions around the vessel, and the location of ship-ice interaction along the hull. Two further studies established and validated the application of hull ...