Northern Sea Route Reconnaissance Study. A Summary of Icebreaking Technology

Since the advent of steam power, icebreakers have been built to navigate in ice-covered waters. The hull forms of early icebreakers were merely an adaptation of open water hull shapes, by sloping bow angles more to create vertical forces for breaking ice in bending. However, these bow forms were fou...

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Bibliographic Details
Main Author: Sodhi, Devinder S.
Other Authors: COLD REGIONS RESEARCH AND ENGINEERING LAB HANOVER NH
Format: Text
Language:English
Published: 1995
Subjects:
Snow
Ice and Permafrost
Marine Engineering
*RECONNAISSANCE
*ICEBREAKERS
*NORTH SEA
USSR
ANGLES
DIESEL ENGINES
GLOBAL
PITCH(INCLINATION)
DISPLACEMENT
EFFICIENCY
COATINGS
PROPULSION SYSTEMS
RELIABILITY
WINTER
ICE
SLOPE
NOZZLES
WEDGES
FRICTION
SEA BASED
MARINE PROPELLERS
MULTIPURPOSE
ELECTRICAL EQUIPMENT
BLUNT BODIES
SUMMER
MARINE PROPULSION
MECHANICAL COMPONENTS
OPEN WATER
ANTARCTIC REGIONS
ARCTIC REGIONS
NAVIGATIONAL AIDS
SHIP BOWS
TRANSMISSIONS(MECHANICAL)
ELECTRIC POWER TRANSMISSION
STEAM POWER PLANTS
ICE BREAKUP
Antarctic
Arctic
The Antarctic
Antarc*
Ice
Icebreaker
Northern Sea Route
permafrost
wedge*
ice covered waters
Online Access:http://www.dtic.mil/docs/citations/ADA298093
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA298093
Description
Summary:Since the advent of steam power, icebreakers have been built to navigate in ice-covered waters. The hull forms of early icebreakers were merely an adaptation of open water hull shapes, by sloping bow angles more to create vertical forces for breaking ice in bending. However, these bow forms were found to be unsuitable for sea-going vessels because they push broken ice ahead of them. This experience led to construction of all sea-going vessels with wedge-shaped bows from 1901 to 1 979. With the introduction of low-friction coatings and the water-deluge system, it is now possible to operate ships with blunt bows efficiently in broken ice. New developments in marine propulsion technology have also been incorporated to obtain better icebreaking efficiency and performance. Both fixed-pitch and controllable-pitch propellers are in use. Nozzles surrounding the propellers are also used to increase the thrust and to reduce ice-propeller interaction. Electrical and mechanical transmission systems have been used in icebreakers to improve the characteristics of the propulsion system. Though many types of prime movers are used in icebreakers, medium-speed diesel engines are the most popular because of their overall economy and reliability. Appendix A is a description of the Russian icebreaker Yamal, which is one of the largest and most powerful icebreakers of the world today. Appendix B contains an inventory of existing ships that are capable of navigating in at least O.3-m-thick ice. Some of the present icebreakers are capable of navigating almost anywhere in the ice-covered waters of the Arctic and the Antarctic, and multi-purpose icebreakers have been built to operate not only in ice during the winter but also in open water doing other tasks during the summer.

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