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Skip to Search Results- 1Aldhaleai, Ahmed Mahmood
- 1Bozorg Bigdeli, Masoud
- 1Brown, Daniel M.
- 1Entezari Najafabadi, Iman
- 1Ferraz Albani, Luis A
- 1Javaheri, Emadeddin
- 1Beier, Nicholas (GeoEnvironmental Engineering)
- 1Beier,Nicholas
- 1Choi,Phillip (Chemical and Materials Engineering)
- 1David S. Nobes (Mechanical Engineering)
- 1Dr. David S. Nobes, Department of Mechanical Engineering, University of Alberta
- 1Dr. Janet A.W. Elliott, Department of Chemical and Materials Engineering, University of Alberta
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Possible thunderstorm modifications caused by the Athabasca oil sands development and the Canadian Shield
DownloadFall 2017
Thunderstorms are common in boreal forest regions and can cause dangerous hazards such as lightning, forest fires, hail, wind, and flooding. Significant research has been conducted to help predict thunderstorms to mitigate or avoid the hazards and damage. The development of thunderstorms...
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Spring 2016
Non-aqueous extraction technologies are currently being investigated as an alternative to the conventional water based process for extracting bitumen from oil sands. The reduced dependence on fresh water and land for creation of tailing ponds makes non-aqueous technologies a greener alternative....
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Superhydrophobic Micro- and Nano-structured Surfaces: Fabrication, Wetting, and Evaporation
DownloadFall 2020
Water-repellent, superhydrophobic (SH) surfaces have attracted a remarkable interest in researchers for both purely academic pursuits and industrial applications, including nanofluidics and microfluidics, coatings, and drag reduction, due to their unique self-cleaning and drag reduction...
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Spring 2018
Superhydrophobic interfaces, due to their unique water repellent and self-cleaning properties, are attracting a wide-spread interest for implementation in a variety of applications, including self-assembly based fabrication methods, nano/microfluidics, and solar energy harvesting. To facilitate...