Cheslav Balash
Cheslav Balash
Verified email at ecu.edu.au
Title
Cited by
Cited by
Year
Aquaculture net drag force and added mass
C Balash, B Colbourne, N Bose, W Raman-Nair
Aquacultural Engineering 41 (1), 14-21, 2009
692009
Prawn trawl drag due to material properties—An investigation of the potential for drag reduction
C Balash, D Sterling
2nd International Symposium on Fishing Vessel Energy Efficiency E-Fishing …, 2012
222012
The effect of mesh orientation on netting drag and its application to innovative prawn trawl design
C Balash, D Sterling, J Binns, G Thomas, N Bose
Fisheries Research 164, 206-213, 2015
162015
The ‘W’ prawn-trawl with emphasised drag-force transfer to its centre line to reduce overall system drag
C Balash, D Sterling, J Binns, G Thomas, N Bose
PloS one 10 (3), e0119622, 2015
92015
Australian prawn-trawling innovations for enhanced energy efficiency
C Balash, D Sterling
3rd International Symposium on Fishing Vessel Energy Efficiency E-Fishing …, 2014
92014
Effects of knot orientation on the height and drag of a penaeid trawl
MK Broadhurst, C Balash, DJ Sterling, RB Millar, S Matsubara
Fisheries Research 186, 48-54, 2017
72017
Twist-and-camber effects on the performance of simple hydro-sails for efficiently spreading penaeid trawls
C Balash, D Sterling, M Lustica, MK Broadhurst
Ocean Engineering 109, 161-168, 2015
62015
Hydrodynamic evaluation of a generic sail used in an innovative prawn-trawl otter board
C Balash, D Sterling, MK Broadhurst, A Dubois, M Behrel
ASME 2015 34th International Conference on Ocean, Offshore and Arctic …, 2015
62015
Drag characterisation of prawn-trawl bodies
C Balash, D Sterling, J Binns, G Thomas, N Bose
Ocean engineering 113, 18-23, 2016
52016
Prawn Trawl Shape due to Flexural Rigidity and Hydrodynamic Forces
C Balash
University of Tasmania, 2012
52012
Progressively evaluating a penaeid W trawl to improve eco-efficiency
C Balash, D Sterling, MK Broadhurst
Fisheries Research 181, 148-154, 2016
42016
Effects of cylindrical cruciform patterns on fluid flow and drag as determined by CFD models
CW Bi, C Balash, S Matsubara, YP Zhao, GH Dong
Ocean Engineering 135, 28-38, 2017
32017
Experimental modelling of transverse oscillations in aquaculture netting parallel to the flow—Sounds baffling
A Johnson, C Balash
China Ocean Engineering 29 (3), 391-400, 2015
32015
Engineering and catching performance of five netting materials in commercial prawn-trawl systems
D Sterling, C Balash
Fisheries Research 193, 223-231, 2017
22017
Vortex-induced motion of a free-standing riser below the critical mass ratio
C Florager, C Balash
ASME 2017 36th International Conference on Ocean, Offshore and Arctic …, 2017
22017
Engineering Mechanics: adoption of project-based learning supported by computer-aided online adaptive assessments–overcoming fundamental issues with a fundamental subject
C Balash, S Richardson, F Guzzomi, A Rassau
European Journal of Engineering Education, 1-12, 2019
12019
A steel lazy wave riser for turret vs. spread-moored FPSO in extreme and wave-induced fatigue conditions
D Szczepanski, C Balash, M Martens
ASME 2018 37th International Conference on Ocean, Offshore and Arctic …, 2018
12018
Effects of buoyancy modules geometry on hydro-elastic and hydrodynamic performance of a steep wave riser in steady current
SJ Calvert, C Balash, S Chai, C Izarn, H Morand
ASME 2015 34th International Conference on Ocean, Offshore and Arctic …, 2015
12015
On the effects of bending stiffness for flexible riser model tests
A Ruskin, Z Tahana, S Chai, C Balash, H Morand, C Izarn
ASME 2014 33rd International Conference on Ocean, Offshore and Arctic …, 2014
12014
Hydrodynamic loads and response of a Mid Water Arch structure
J Hill, S Laycock, S Chai, C Balash, H Morand
Ocean engineering 83, 76-86, 2014
12014
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