Abstract

With the increase in popularity of podded propulsors and arctic navigation, understanding the interaction between a podded propulsor and ice has become more important. Propeller-ice interaction itself is a complicated process with a high level of uncertainty resulting from the uncertainties associated with the properties of the ice and with the propeller-ice interaction conditions. Model tests provide relatively well-controlled ice properties and interaction conditions to reduce the uncertainties. In order to improve the understanding of this interaction and to develop numerical models of it, a model podded propulsor was used in “Puller” mode, and ice loads were measured on its instrumented blade and propeller shaft. The results of the experiments conducted to simulate the interactions (milling) of the instrumented blade with ice in different operating conditions are reported in this paper. Loads measured during the milling consist of ice milling loads, “inseparable” hydrodynamic loads, and “separable” hydrodynamic loads. The sample results presented here include ice milling and inseparable hydrodynamic loads for various advance coefficients and depths of cut (amount of blade penetration into ice). Some results are compared with existing ice load models.

Issue Section:
Technical Papers
Keywords:
sea ice, propellers, blades, shafts, hydrodynamics, ice class, propeller, propeller-ice interaction, model test, ice tank
Topics:
Blades, Ice, Milling, Propellers, Stress, Thrust
1.
Laskow
,
V.
, and
Revill
,
C.
, 1986, “
Engineering Analysis of Ice/Propeller Interaction Data
,” Transportation Development Centre Report, TP 8450E.
2.
Jussila
,
M.
, and
Koskinen
,
P.
, 1989, “
Ice Loads on CP-Propeller and Propeller Shaft of Small Ferry and Their Statistical Distributions During Winter ’87
,”
Proc. 8th International Conference on Offshore Mechanics and Arctic Engineering (OMAE’89)
, Netherlands, March 19-23, Vol.
4
, pp.
351
358
.
3.
Keinonen
,
A.
,
Browne
,
R.
, and
Jacobsen
,
C.
, 1990, “
Ice Propeller Interaction Forces
,” Transportation Development Centre Report, TP 10401E.
4.
Williams
,
F.
,
Spencer
,
D.
,
Mathews
,
S.
, and
Bayly
,
I.
, 1992, “
Full Scale trials in Level Ice With Canadian R-Class Icebreaker
,”
Soc. Nav. Archit. Mar. Eng., Trans.
0081-1661,
100
, pp.
293
313
.
5.
Cowper
,
B.
,
Browne
,
R.
,
Glen
,
I.
, and
Ritch
,
R.
, 1992, “
Resistance and Propulsive Performance Trials of the MV Terry Fox and MV Ikaluk in Level Ice
,”
Soc. Nav. Archit. Mar. Eng., Trans.
0081-1661,
100
, pp.
315
343
.
6.
Jussila
,
M.
, and
Soininen
,
H.
, 1991, “
Interaction Between Ice and Propeller
,” Research Reports 1281, Technical Research Centre of Finland, Espoo.
7.
Newbury
,
S.
,
Shih
,
L.
,
Browne
,
R.
,
Revill
,
C.
,
Kenny
,
S.
, and
Zheng
,
Y.
, 1993, “
Experimental and Theoretical Evaluation of Hydrodynamic Pressure During Non-contact Propeller/Ice Interaction
,”
Proc. 2nd Canadian Marine Dynamics Conference
, Vancouver, August 9-11, pp.
157
166
.
8.
Newbury
,
S.
,
Browne
,
R.
, and
Jones
,
S.
, 1994, “
Experimental Determination of Hydrodynamic Non-contact Loads During Propeller-Ice Interaction
,”
Proc. 4th International Society of Offshore and Polar Engineers (ISOPE’ 94)
, Osaka, April 10-15, Vol.
2
, pp.
596
601
.
9.
Browne
,
R.
, 1997, “
Analysis of Canadian Full Scale Propeller and Ice Interaction Trials Data for Correlation With Empirical Models
,” Report No. CR-1997-12, Institute for Ocean Technology, National Research Council of Canada.
10.
Jones
,
S. J.
,
Soininen
,
H.
,
Jussila
,
M.
,
Koskinen
,
P.
,
Newbury
,
S.
, and
Browne
,
R.
, 1997, “
Propeller-Ice Interaction
,”
Soc. Nav. Archit. Mar. Eng., Trans.
0081-1661,
105
, pp.
399
425
.
11.
Veitch
,
B.
, 1995, “
Predictions of Ice Contact Forces on a Marine Screw Propeller During the Propeller-Ice Cutting Process
,” Acta Polytechnica Scandinavica, Mechanical Engineering Series, Helsinki, p.
118
.
12.
Soininen
,
H.
, 1998, “
A Propeller-Ice Contact Model
,” Dissertation for the Degree of Doctor of Technology, Helsinki University of Technology, Espoo.
13.
Searle
,
S.
,
Veitch
,
B.
, and
Bose
,
N.
, 1999, “
Ice-Class Propeller Performance in Extreme Conditions
,”
Soc. Nav. Archit. Mar. Eng., Trans.
0081-1661,
107
, pp.
127
152
.
14.
Moores
,
C.
,
Veitch
,
B.
,
Bose
,
N.
,
Jones
,
S. J.
, and
Carlton
,
J.
, 2002, “
Multi-Component Blade Load Measurements on a Propeller in Ice
,”
Soc. Nav. Archit. Mar. Eng., Trans.
0081-1661,
110
, pp.
169
188
.
15.
Moores
,
C.
, 2002, “
Shaft and Blade Load Measurements on a Highly Skewed Propeller Model in Ice
,” Master of Engineering Thesis, Memorial University of Newfoundland, St. John’s, Newfoundland.
16.
Doucet
,
J.
,
Liu
,
P.
, and
Bose
,
N.
, 1998, “
Numerical Prediction of Ice-Induced Loads on Ice-Class Screw Propellers Using a Synthesized Contact/Hydrodynamic Code
,” Ocean Engineering Research Centre Report No. OERC-1998–004.
17.
Walker
,
D.
,
Bose
,
N.
, and
Yamaguchi
,
H.
, 1994, “
Hydrodynamic Performance and Cavitation of an Open Propeller in a Simulated Ice Blocked Flow
,”
ASME J. Offshore Mech. Arct. Eng.
0892-7219,
116
, pp.
185
189
.
Crossref
Search ADS
 
18.
Luznik
,
L.
, 1994, “
Open Water Performance of a Propeller in a Uniform Flow and in a Blocked Flow from a Nearby Simulated Ice Body,” Memorial University of Newfoundland, OERC Report No. WR-WTT-94001.
19.
Luznik
,
L.
,
Walker
,
D.
,
Bose
,
N.
, and
Jones
,
S. J.
, 1995, “
Effects of Ice Blockage Size and Proximity on Propeller Performance During Non-Contact Propeller Ice Interaction
,”
Proc. 14th International Conference on Offshore Mechanics and Arctic Engineering, (OMAE’95)
, Copenhagen, June 18-22, Vol.
4
, pp.
35
39
.
20.
Bose
,
N.
, 1996, “
Ice Blocked Propeller Performance Prediction Using a Panel Method
,”
Trans. RINA
0035-8967,
138
, pp.
213
226
.
21.
Liu
,
P.
,
Doucet
,
M.
,
Veitch
,
B.
,
Robbins
,
I.
, and
Bose
,
N.
, 2000, “
Numerical Prediction of Ice Induced Hydrodynamic Loads on Propellers due to Blockage
,”
J. Ocean. Eng. Int.
,
4
(
1
), pp.
31
38
.
22.
Akinturk
,
A.
,
Jones
,
S.
,
Duffy
,
D.
, and
Rowell
,
B.
, 2004, “
Ice Loads on Azimuthing Podded Propulsors
,”
Proc. 23rd International Conference on Offshore Mechanics and Arctic Engineering, (OMAE’04)
, New York, June 20-25 (CD-ROM, no page numbers).
Crossref
Search ADS
 
23.
Wang
,
J.
,
Akinturk
,
A.
,
Foster
,
W.
,
Jones
,
S. J.
, and
Bose
,
N.
, 2004, “
An Experimental Model for Ice Performance of Podded Propellers
,”
Proc. of the 27th American Towing Tank Conference
, Institute for Ocean Technology, National Research Council of Canada, August 6-7 (CD-ROM, no page numbers).
Crossref
Search ADS
 
24.
Wang
,
J.
,
Akinturk
,
A.
,
Jones
,
S. J.
, and
Bose
,
N.
, 2005, “
Ice Loads on a Model Podded Propeller Blade in Milling Conditions
,”
Proc. 24th International Conference on Offshore Mechanics and Arctic Engineering, (OMAE’05)
, Halkidiki, Greece, June 12-17 (CD-ROM, no page numbers).
Crossref
Search ADS
 
25.
Emerson
,
A.
, and
Sinclair
,
L.
, 1978, “
Propeller Design and Model Experiments
,”
Trans. North East Coast Institution of Engineers and Shipbuilders
,
94
, pp.
199
234
;
Emerson
,
A.
, and
Sinclair
,
L.
, 1978, “
Propeller Design and Model Experiments
,”
Trans. North East Coast Institution of Engineers and Shipbuilders
94
,
D31
34
.
26.
Jones
,
S. J.
, 1987, “
Ice Tank Test Procedure at the Institute for Marine Dynamics
,” Report No. LM-AVR-20, Institute for Ocean Technology, National Research Council of Canada.
27.
Timco
,
G.
, 1986, “
EG/AD/S: A New Type of Model Ice for Refrigerated Towing Tanks
,”
J. Cold Sci. Technol.
,
12
, pp.
175
195
.
Crossref
Search ADS
 
28.
Spencer
,
D. S.
, and
Timco
,
G. W.
, 1990, “
CD Model Ice: a Process to Produce Correct Density (CD) Model Ice
,”
Proc. 10th IAHR Symposium on Ice
, Espoo, Finland, August 20-24, Vol.
2
, pp.
745
755
.
29.
Sharp
,
J. J.
,
Deb
,
A.
, and
Deb
,
M. K.
, 1992, “
Application of Matrix Manipulation in Dimensional Analysis Involving Large Numbers of Variables
,”
Mar. Struct.
0951-8339,
5
(
4
), pp.
333
348
.
Crossref
Search ADS
 
30.
Koskinen
,
P.
,
Jussila
,
M.
, and
Soininen
,
H.
, 1996, “
Propeller Ice Load Models
,” Research Reports
1739
, Technical Research Centre of Finland, Espoo.
31.
International Association of Classification Societies (IACS)
, 2006, I3 Machinery Requirement for Polar Class Ships.
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 by American Society of Mechanical Engineers
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