dr hab. inż. Karol Niklas
Employment
- Associate professor at Institute of Ocean Engineering and Ship Technology
Research fields
- strength analysis
- fatigue analysis
- computer simulation
- cad
- fea
- cfd
- experimental research
- ship design
- offshore structures
- yacht
- sandwich structure
- ship structures
- ship
- ship resistance
- seakeeping
- ship collision
- sov
- offshore wind turbine
- support structure
- wind farm
- nx
- ansys
- nastran
- star-ccm+
- rhino3d
- maxsurf
Business contact
- Location
- Al. Zwycięstwa 27, 80-219 Gdańsk
- Phone
- +48 58 348 62 62
- biznes@pg.edu.pl
Social media
Contact
- karol.niklas@pg.edu.pl
Associate professor
- Institute of Ocean Engineering and Ship Technology
- Faculty of Mechanical Engineering and Ship Technology
- Workplace
- Budynek Wydziału Oceanotechniki i Okrętownictwa pokój 268
- Phone
- (58) 347 19 43
Publication showcase
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Full-scale CFD simulations for the determination of ship resistance as a rational, alternative method to towing tank experiments
Results of ship resistance predictions obtained from towing tank experiments are affected by the method used to extrapolate from a model scale to a ship scale. Selection of method to determine a form factor is subjective and the extrapolation method is accurate for typical hull forms. For innovative hull forms the proper method for calculating the form factor is questionable. Moreover, the influence of the extrapolation method...
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MARSTRUCT benchmark study on nonlinear FE simulation of an experiment of an indenter impact with a ship side-shell structure
This paper presents a benchmark study on collision simulations that was initiated by the MARSTRUCT Virtual Institute. The objective was to compare assumptions, finite element models, modelling techniques and experiences between established researchers within the field. Fifteen research groups world-wide participated in the study. An experiment involving a rigid indenter penetrating a ship-like side structure was used as the case...
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Full scale CFD seakeeping simulations for case study ship redesigned from V-shaped bulbous bow to X-bow hull form
Increasing propulsion efficiency, safety, comfort and operability are of the great importance, especially for small ships operating on windy sites like the North Sea and the Baltic Sea. Seakeeping performance of ships and offshore structures can be analysed by different methods and the one that is becoming increasingly important is CFD RANS. The recent development of simulation techniques together with rising HPC accessibility...
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