Keyword search (4,163 papers available)

"Oil spill" Keyword-tagged Publications:

Title Authors PubMed ID
1 Assessing the performance of a surface washing agent for oil removal from sand in cold environments Sui J; Bi H; Yue R; Fu H; Yang A; An C; 41544565
ENCS
2 Development, Testing, and Application of an Enhanced Oil Spill Model for Ice-Covered Waters (OSMT-Ice) through Multiscale Field Experiments Yang Z; Chen Z; Lee K; 40845360
ENCS
3 Unraveling the resuspension and transformation of stranded oil: Mechanisms driving oil-particle aggregate formation in intertidal zones Yang X; Bi H; Huang G; Zhang H; Lyu L; An C; 40544777
ENCS
4 Konjac glucomannan (KGM) aerogel immobilized microalgae: A new way for marine oil spills remediation Wang X; Du Z; Song Z; Liu M; He P; Feng L; Chen Z; Chen Q; 40381443
ENCS
5 GOOSM: A GIS-based offshore oil spill management tool for enhanced response and preparedness Yang Z; Chen Z; Lee K; 40279774
ENCS
6 Effect of konjac glucomannan aerogel-immobilized Chlorella vulgaris LH-1 on oil-contaminated seawater remediation and endogenous bacterial community diversity Du Z; Wang X; Song Z; Zhu B; Feng L; Chen Z; Chen Q; 39853794
ENCS
7 Oil spills in coastal regions of the Arctic and Subarctic: Environmental impacts, response tactics, and preparedness Bi H; Wang Z; Yue R; Sui J; Mulligan CN; Lee K; Pegau S; Chen Z; An C; 39689468
ENCS
8 Assessment of risk for aromatic hydrocarbons resulting from subsea Blowouts: A case study in eastern Canada Yang Z; Chen Z; Xin Q; Lee K; 39571296
ENCS
9 Exploring the glycoprotein washing fluid-assisted cleanup for the restoration of oil-contaminated shorelines with environmental integrity Sui J; Yue R; Bi H; Fu H; Yang A; Wang M; An C; 39260515
ENCS
10 Managing deepsea oil spills through a systematic modeling approach Chen Z; Yang Z; Lee K; Lu Y; 38759562
ENCS
11 Assessment of the infiltration of water-in-oil emulsion into soil after spill incidents Qu Z; An C; Yue R; Bi H; Zhao S; 37414189
ENCS
12 Preparation, characteristics, and performance of the microemulsion system in the removal of oil from beach sand Bi H; Mulligan CN; Lee K; An C; Wen J; Yang X; Lyu L; Qu Z; 37399736
ENCS
13 Development and testing of a 2D offshore oil spill modeling tool (OSMT) supported by an effective calibration method Yang Z; Chen Z; Lee K; 36758314
ENCS
14 Numerical simulation of multiphase oil behaviors in ice-covered nearshore water Raznahan M; Li SS; Wang Z; Boufadel M; Geng X; An C; 36095968
ENCS
15 Development and testing of a SOSM approach to examine the natural attenuation of oil spillage on shorelines Yang Z; Chen Z; 35843085
ENCS
16 Exploring the characteristics, performance, and mechanisms of a magnetic-mediated washing fluid for the cleanup of oiled beach sand Yue R; An C; Ye Z; Chen X; Lee K; Zhang K; Wan S; Qu Z; 35780732
ENCS
17 Experimental and modeling studies of the effects of nanoclay on the oil behaviors in a water-sand system Iravani R; An C; Mohammadi M; Lee K; Zhang K; 35233669
ENCS
18 Cleanup of oiled shorelines using a dual responsive nanoclay/sodium alginate surface washing agent Yue R; An C; Ye Z; Bi H; Chen Z; Liu X; Zhang X; Lee K; 34906587
ENCS
19 Development of Sludge-Based Activated Char Sorbent with Enhanced Hydrophobicity for Oil Spill Cleanup Zaker A; Chen Z; Lee K; Hammouda SB; 34842051
ENCS
20 Dispersion modeling of particulate matter from the in-situ burning of spilled oil in the northwest Arctic area of Canada Wang Z; An C; Lee K; Owens E; Boufadel M; Feng Q; 34731942
ENCS
21 A green initiative for oiled sand cleanup using chitosan/rhamnolipid complex dispersion with pH-stimulus response Chen Z; An C; Wang Y; Zhang B; Tian X; Lee K; 34687682
ENCS
22 Hypersaline Pore Water in Gulf of Mexico Beaches Prevented Efficient Biodegradation of Deepwater Horizon Beached Oil Geng X; Khalil CA; Prince RC; Lee K; An C; Boufadel MC; 34617733
ENCS
23 Exploring the use of alginate hydrogel coating as a new initiative for emergent shoreline oiling prevention Bi H; An C; Mulligan CN; Wang Z; Zhang B; Lee K; 34346356
ENCS
24 Investigation into the impact of aged microplastics on oil behavior in shoreline environments Feng Q; An C; Chen Z; Yin J; Zhang B; Lee K; Wang Z; 34332489
ENCS
25 Multiphase CFD simulation of the nearshore spilled oil behaviors Raznahan M; An C; Li SS; Geng X; Boufadel M; 34284211
ENCS
26 Assessing the coastal sensitivity to oil spills from the perspective of ecosystem services: A case study for Canada's pacific coast Feng Q; An C; Chen Z; Owens E; Niu H; Wang Z; 34271360
ENCS
27 Investigation into the oil removal from sand using a surface washing agent under different environmental conditions. Bi H, An C, Chen X, Owens E, Lee K 32829266
ENCS
28 Exploring the use of cellulose nanocrystal as surface-washing agent for oiled shoreline cleanup. Chen Z, An C, Yin J, Owens E, Lee K, Zhang K, Tian X 32693337
ENCS

 

Title:Experimental and modeling studies of the effects of nanoclay on the oil behaviors in a water-sand system
Authors:Iravani RAn CMohammadi MLee KZhang K
Link:https://pubmed.ncbi.nlm.nih.gov/35233669/
DOI:10.1007/s11356-022-19150-w
Publication:Environmental science and pollution research international
Keywords:ModelingNanoclayOil behaviorOil spillWater-sand system
PMID:35233669 Category: Date Added:2022-03-02
Dept Affiliation: ENCS
1 Department of Building, Civil and Environmental Engineering, Concordia University, Montreal, H3G 1M8, Canada.
2 Department of Building, Civil and Environmental Engineering, Concordia University, Montreal, H3G 1M8, Canada. chunjiang.an@concordia.ca.
3 Research Centre for High Performance Polymer and Composite Systems (CREPEC), Department of Chemical Engineering, Polytechnique Montreal, Montreal, H3C 3A7, Canada.
4 Fisheries and Oceans Canada, Ecosystem Science, Ottawa, K1A 0E6, Canada.
5 Institute of Energy, Peking University, Beijing, 100871, China.

Description:

When oil is released into the oceans, spilled oil may get to the shoreline driven by wind and wave. This study comprehensively explored the effects of bentonite nanoclay on the oil behaviors in a water-sand system from both experimental and modeling perspectives. Four factors including nanoclay concentration, temperature, salinity, and pH have been studied. The increasing nanoclay concentration resulted in the decrease in remaining oil on sand. Higher temperature and salinity were associated with less residual oil on sand in the presence of nanoclay. The lower residual oil on sand with coexisting nanoclay was found to be at pH 7. The factorial analysis results indicated that the nanoclay concentration showed the most significant impact among these factors. Miscibility modeling results showed an increasing temperature was favorable to the nanoclay miscibility. Moreover, the effect of nanoclay on oil behavior was further revealed through the dynamic simulation, in which it can be seen the nanoclay could penetrate into oil droplets and promote the oil detachment from solid substrate. The results of this study can help understand the role of fine particles in the fate and transport of oil on shoreline and support the risk assessment and response planning after oil spill.





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