Your search keyword '"FENG QI"' showing total 6 results

1. Factors influencing the fate of oil spilled on shorelines: a review

Author

Wang, Zheng, An, Chunjiang, Lee, Kenneth, Owens, Edward, Chen, Zhi, Boufadel, Michel, Taylor, Elliott, and Feng, Qi

Published

2021

2. Exploring the effects of substrate mineral fines on oil translocation in the shoreline environment: Experimental analysis, numerical simulation, and implications for spill response.

Author

Feng, Qi, An, Chunjiang, Chen, Zhi, Zhang, Yingchun, Owens, Edward, Lee, Kenneth, Li, Biao, Taylor, Elliott, and Wang, Zheng

Subjects

*MINERAL oils, *SHORELINES, *COMPUTER simulation, *FLOW velocity, *DIESEL motors, *PETROLEUM

Abstract

Mineral fines act a pivotal part in determining the fate and behavior of oil. In this study, the infiltrations of oil emulsion in simulated sediments and natural shoreline sediments were investigated using a fixed bed experiment. Oil infiltration process was simulated based on fixed-bed dispersion model. The role of mineral fines in oil release was explored using simulated and natural sediments. Although mineral fines exhibited a higher affinity for oil, it was found that increasing fines fractions decreased the flow rate of oil emulsion, thereby decreasing the oil retention in the sediment column. In terms of oil release from the sediment, the highest level of oil mass was observed in the oil-mineral flocculation phase compared to the water column and the water surface compartments. Compared to light crude oil, the release of engine oil from sediment was less. The effects of mineral fines on oil infiltration and release were also confirmed by using natural shoreline sediments. Results of our detailed field studies also showed that current shoreline classification datasets do not characterize the presence and fraction of mineral fines at a level of detail required to accurately predict the significance of oil translocation following spill incidents. [Display omitted] • Shoreline mineral fines act a pivotal part in determining the oil translocation. • Effects of mineral fines in oil infiltration were simulated using fixed-bed model. • Increasing fines fraction decreased the flow velocity and oil retention. • Highest oil mass was observed in the fines-oil flocculation phase. • Shoreline sample analysis underlined the need to explore fine segments for cleanup. [ABSTRACT FROM AUTHOR]

Published

2022

3. Investigation into the impact of aged microplastics on oil behavior in shoreline environments.

Author

Feng, Qi, An, Chunjiang, Chen, Zhi, Yin, Jianan, Zhang, Baiyu, Lee, Kenneth, and Wang, Zheng

Subjects

*MICROPLASTICS, *SHORELINES, *ENVIRONMENTAL remediation, *PETROLEUM

Abstract

Understanding the interactions between oil and other particles in shoreline can help determine the environmental risk and cleanup strategy after oil spill. Nevertheless, far less has been known regarding the impact of aged MPs on oil behavior in the shoreline environment. In this study, the aging course of polyethylene (PE) in shaking seawater and ultraviolet (UV) radiation conditions was investigated. The seawater aging mainly affected the physical properties of MPs, increasing its surface pores and hydrophilicity. UV aging significantly affected both the physical and chemical properties of MPs, which increased its hydrophilicity and crystallinity, decreased its mean particle size and introduced oxygen-containing functional groups onto MPs. The two-dimensional correlation spectroscopy (2D COS) analysis confirmed the evolution of oxygen-containing functional groups from C–O to C O. The effects of aged MPs on oil behavior in water-sand system were further explored. The oil remaining percentages were non-linearly changed with the increasing aging degree of MPs. The particle size of the aqueous phase after washing was inversely related to the oil remaining percentage. Further FTIR analysis revealed that C–O and C–H functional groups played an important role in the process of oil adsorbed on MPs. [Display omitted] • The changes of microplastics under seawater-aging and UV-aging are distinctive. • Aged microplastics can impact the transport of oil in shoreline environments. • A higher amount of oil droplet contributes to the aggregation with microplastics. • C–O and C–H functional groups play an important role in the binding process. • Effects are determined by the trade-offs between oil-microplastic interactions. [ABSTRACT FROM AUTHOR]

Published

2022

4. Assessing the coastal sensitivity to oil spills from the perspective of ecosystem services: A case study for Canada's pacific coast.

Author

Feng, Qi, An, Chunjiang, Chen, Zhi, Owens, Edward, Niu, Haibo, and Wang, Zheng

Subjects

*OIL spills, *ECOSYSTEM services, *ELECTRIC power consumption, *COASTS, *COASTAL mapping, *PETROLEUM prospecting, *SHORELINES

Abstract

Coastal environment is one of the most important ecological and socioeconomic areas. However, increasing energy demand and economic development lead to a continuous gas and oil exploration, production, and traffics, which notably raise the risk of oil spill accidents in coastal areas. Sensitivity assessment aiming to determine the coastal features that would be severely impaired by spill incidents is a crucial part of the response planning. In this study, an innovative framework for coastal sensitivity mapping that incorporated ecosystem service (ES) valuation and multidimensional assessment was proposed. Sensitivity was computed by valuing physical, biological, and social-economical indicators from ES perspective and separating each indicator into specific coastal domains. For different ES typologies, provisioning services contributed most to the overall ES value followed by culture services, supporting services, and regulating services. For ES value in different coastal domains, the highest value was recorded in the water column followed by water surface, shoreline, and seabed. However, the shoreline ranked highest regarding the ES value per ha. Sensitivity assessment revealed that sensitive areas differed in different domains, both in distribution and extent. Compared with the scoring method, the ES valuation method showed more coincidence with Ecologically and Biologically Significant Areas (EBSA), representing a more precise and practical approach for sensitivity assessment. A three-dimensional (3D) oil spill model was also applied to generate maps of oil contamination probability in shoreline, water surface, and water column. The obtained results highlighted the significance of incorporating different coastal domains into oil spill responses, and the urgent demand to broaden and deepen our understanding of ecological processes across the vertical coastal zones. [Display omitted] • An innovative framework for coastal sensitivity mapping was proposed. • ES valuation and multidimensional assessment were incorporated for analysis. • A case study was conducted to assess the sensitivity of Canada's Pacific coast. • ES valuation method is more precise and practical compared with the scoring method. • Sensitive areas differed in different domains, both in distribution and extent. [ABSTRACT FROM AUTHOR]

Published

2021

5. Development of a calcium alginate-cellulose nanocrystal-based coating to reduce the impact of oil spills on shorelines.

Author

Bi, Huifang, Mulligan, Catherine N., An, Chunjiang, Owens, Edward, Taylor, Elliott, McCourt, James, Yin, Jianan, Feng, Qi, Chen, Xinya, and Yue, Rengyu

Subjects

*OIL spills, *SHORELINES, *ALGAL biofuels, *SURFACE coatings, *CALCIUM, *ALGINATES, *PETROLEUM

Abstract

It is well known that oil stranded on shoreline substrates can be difficult to remove and cause serious environmental effects. To address this issue, a calcium alginate-cellulose nanocrystal (CA-CNC)-based coating with a unique surface structure and superhydrophobic properties was developed to reduce the extent of shoreline oiling. The results of batch washing test showed that not only did the introduction of CNC not reduce the oil removal efficiency; it also improved the environmental stability of the coating to resist the effects associated with seawater immersion and erosion (especially in the case of 0.4 wt% of CNC). The oil-repellent performance of the coated gravels implied that both oscillation time and oil concentration had almost no effects on the amount of adhered oil. Assessment of oiling prevention based on the laboratory shoreline tank simulator proved the coated gravel performed very well as more oil floated and less oil remained on substrates and penetrated into the subsurface. Biotoxicity analysis showed that the coating powders reduced impacts on the toxicity of the oil to algae at low doses. There is a good potential for the use of this CA-CNC based coating technique to improve shoreline oil spill response. [Display omitted] • A calcium alginate-cellulose nanocrystal-based coating approach was developed. • The coated gravels showed good performance of oil removal and repellence. • The coating exhibited environmental stability in immersion and erosion of seawater. • The feasibility of using coating for oiling prevention was proved in tank tests. • Biotoxicity analysis revealed the coating alleviated the toxicity of oil to algae. [ABSTRACT FROM AUTHOR]

Published

2022

6. Dispersion modeling of particulate matter from the in-situ burning of spilled oil in the northwest Arctic area of Canada.

Author

Wang, Zheng, An, Chunjiang, Lee, Kenneth, Owens, Edward, Boufadel, Michel, and Feng, Qi

Subjects

*PARTICULATE matter, *OIL spills, *DISPERSION (Chemistry), *TEMPERATURE inversions, *POLLUTANTS

Abstract

In-situ burning can be used to prevent oil spreading in oil spill response. In this study, a steady-state Gaussian plume model was applied to analyze the concentration distribution of fine particulate matter produced by in-situ burning, as well as to assess the health risks associated with different combustion methods and ambient conditions, in reference to three simulation scenarios. The spatial and temporal distribution of emission sources can affect the dispersion pattern. The distribution into an array of different burning locations ensures better dispersion of emissions, thereby preventing the formation of high concentration regions. The wind and atmosphere stability play an important role in pollution dispersion. Lower wind and temperature inversion can seriously hinder the diffusion of pollutants. The health risk to technical staff adjacent to the burning areas is a serious concern, and when the community is more than 20 km away from the burning zone, there is few risks. Through simulation, the influences of combustion methods and natural factors on the concentration and diffusion of pollutants are evaluated. The results can help provide an optimized burning strategy for oil spill response in the Arctic area. [Display omitted] • The pollution risk of in-situ burning of spilled oil in Arctic areas was assessed. • The spatio-temporal distribution of emission sources can affect dispersion modes. • The wind and atmosphere stability play an important role in pollutant dispersion. • The health risk of burning to adjacent area was evaluated under various conditions. • The results can help provide an optimized burning strategy for oil spill response. Main findings: The pollution risk of in-situ burning of spilled oil in Arctic area was assessed based on dispersion modeling. The risk can be impacted by emission sources and atmosphere stability. [ABSTRACT FROM AUTHOR]

Published

2022