CoARICE
CoARICEDetails about this project can be found using following weblink
Start: October 01. 2020
End: March 31. 2024
Unit: Department of Industrial Engineering Project categories: Applied Research / Educational Development
Keywords: Atmospheric icing
End: March 31. 2024
Unit: Department of Industrial Engineering Project categories: Applied Research / Educational Development
Keywords: Atmospheric icing
Funding:
Research Council of Norway (RCN)Participants:
Muhammad Shakeel VirkShigeo Kimura
Galerah Momen
Hui-Han Hu
Mingfeng Hunag
Qin Hu
Kosugi Kenji
Pavel Maryandyshev
Pavlo Sokolov
Ingrid Renate Howes
Results:
- Study of Ice Accretion Using an Open Loop Portable Icing Tunnel (Popular scientific lecture)
- Feasibility Study of Hydrogen Production from Wind Energy in Narvik (Masters thesis)
- A method for measuring ice thickness of wind turbine blades based on edge detection (Academic article)
- Improvement of ILM calculation by Pre Processing of the Acquired Data (Academic lecture)
- A note on ice detection of wind turbine blades by a rotating cylinder type ice sensor (Academic lecture)
- Numerical study of icing impact on the performance of pitch-regulated large wind turbine (Academic article)
- Atmospheric icing on structures, UiT research perspective. (Lecture)
- Review of anti/de-icing techniques for wind turbine blades. (Lecture)
- Droplet impact dynamics on hydrophobic surfaces. (Lecture)
- Torsional stiffness of iced power transmission lines. (Lecture)
- Micro terrain effects on icing of structures. (Lecture)
- Wind induced swing of iced power transmission lines. (Lecture)
- Dynamic ice accretion process over the surface of a turbine blade pertinent to offshore turbine icing phenomena. (Lecture)
- Aircraft/ Aero-engine Icing Physics and Innovative Strategies for Inflight Icing Mitigation (Lecture)
- An improved rigid rod method for wind-induced swing response prediction of heavily iced transmission lines (Academic article)