Tong Yu
University of Alberta
13 Papers
20 Citations
Tong Yu is an academic researcher from University of Alberta. The author has contributed to research in topics: Sulfate-reducing bacteria & Bioretention. The author has an hindex of 6, co-authored 12 publications.
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Papers
A critical literature review of bioretention research for stormwater management in cold climate and future research recommendations
TL;DR: In this paper, it is shown that a coarser media is required to prevent concrete frost from forming, and if sufficient permeability exists to drain the system prior to freezing, peak flow and volume reduction can be maintained.
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Model development for prediction and mitigation of dissolved oxygen sags in the Athabasca River, Canada.
TL;DR: The model can be used as a management tool with updated SOD values to forecast the DO in low flow years and evaluate mitigation measures and can be applied to manage other ice-covered rivers.
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Sulfate reducing bacteria and their activities in oil sands process-affected water biofilm.
TL;DR: The study expands current knowledge of biofilm treatment of OSPW and the function of anaerobic SRB in OspW biofilm, and thus provides information for future bioreactor development in the reclamation of O SPW.
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Fouling characteristic of reverse osmosis membrane for reclaimed water treatment operating under cold winter condition
Zihe Li,Guo Wei Ni,Jin Long Wang,Lin Zhou,Qiang Yang,Pei-Zhuo Li,Ai Gao,Tong Yu,Liang Cheng,Xue-Jun Bi +9 more
TL;DR: In this paper , the authors examined the fouling characteristics of reverse osmosis (RO) membranes operating in winter and found that both organic and inorganic foulant contents showed a decreasing trend from the front-most model to the endmost model, and organics were the main foulant, accounting for 93.90 %-95.24 % of the RO membrane surface deposits.
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Study on Bioretention for Stormwater Management in Cold Climate, Part I: Hydraulics
TL;DR: In this article, simulated storm events were applied to four large bioretention columns to approximate 1.6 years of equivalent volume in Edmonton, Alberta's typical climate, and the columns successfully managed 1:2 year events in terms of infiltration rate, ponding depth and duration.
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