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PubMed Publications| Keyword search (4,163 papers available) |  |
"RCT" Keyword-tagged Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | Organic chemicals of Arctic concern in Russian coastal seas | Min XZ; Zhang X; Xie ZY; Nikolaev A; Vorkamp K; Ma JM; Reiersen LO; Li L; Cai MH; Ren NQ; Li YF; Zhang ZF; Kallenborn R; Muir D; | 41571477 CHEMBIOCHEM |
| 2 | Cerebral small vessel disease lesion segmentation methods: A systematic review | Phelps J; Singh M; McCreary CR; Dallaire-Théroux C; Stein RG; Potvin-Jutras Z; Guan DX; Wu JD; Metz A; Smith EE; | 41080650 SOH |
| 3 | 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 |
| 4 | 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 |
| 5 | Protocol for a partially nested randomised controlled trial to evaluate the effectiveness of the scleroderma patient-centered intervention network COVID-19 home-isolation activities together (SPIN-CHAT) program to reduce anxiety among at-risk scleroderma patients. | Thombs BD, Kwakkenbos L, Carrier ME, Bourgeault A, Tao L, Harb S, Gagarine M, Rice D, Bustamante L, Ellis K, Duchek D, Wu Y, Bhandari PM, Neupane D, Carboni-Jiménez A, Henry RS, Krishnan A, Sun Y, Levis B, He C, Turner KA, Benedetti A, Culos-Reed N, El-Baalbaki G, Hebblethwaite S, Bartlett SJ, Dyas L, Patten S, Varga J, Scleroderma Patient-centered Intervention Network (SPIN) COVID-19 Patient Advisory Team, SPIN Investigators | 32521358 PSYCHOLOGY |
| 6 | Protocol for a partially nested randomised controlled trial to evaluate the effectiveness of the scleroderma patient-centered intervention network COVID-19 home-isolation activities together (SPIN-CHAT) program to reduce anxiety among at-risk scleroderma patients. | Fortuné C, Gietzen A, Guillot G, Lewis N, Nielsen K, Richard M, Sauvé M, Welling J, SPIN Investigators, Baron M, Furst DE, Gottesman K, Malcarne V, Mayes MD, Mouthon L, Nielson WR, Riggs R, Wigley F, Assassi S, Boutron I, Ells C, van den Ende C, Fligelstone K, Frech T, Godard D, Harel D, Hinchcliff M, Hudson M, Johnson SR, Larche M, Leite C, Nguyen C, Pope J, Portales A, Rannou F, Reyna TSR, Schouffoer AA, Suarez-Almazor ME, Agard C, Albert A, André M, Arsenault G, Benzidia I, Bernstein EJ, Berthier S, Biss | 32419703 PSYCHOLOGY |
| 7 | Group sample sizes in nonregulated health care intervention trials described as randomized controlled trials were overly similar | Thombs BD; Levis AW; Azar M; Saadat N; Riehm KE; Sanchez TA; Chiovitti MJ; Rice DB; Levis B; Fedoruk C; Lyubenova A; Malo Vázquez de Lara AL; Kloda LA; Benedetti A; Shrier I; Platt RW; Kimmelman J; | 31866472 LIBRARY |
| Title: | Dispersion modeling of particulate matter from the in-situ burning of spilled oil in the northwest Arctic area of Canada | ||||
| Authors: | Wang Z, An C, Lee K, Owens E, Boufadel M, Feng Q | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/34731942/ | ||||
| DOI: | 10.1016/j.jenvman.2021.113913 | ||||
| Publication: | Journal of environmental management | ||||
| Keywords: | Arctic; Dispersion modeling; In-situ burning; Oil spill; Particulate matter; | ||||
| PMID: | 34731942 | Category: | Date Added: | 2021-11-04 | |
| Dept Affiliation: |
ENCS
1 Department of Building, Civil and Environmental Engineering, Concordia University, Montreal, QC, H3G 1M8, Canada. 2 Department of Building, Civil and Environmental Engineering, Concordia University, Montreal, QC, H3G 1M8, Canada. Electronic address: chunjiang.an@concordia.ca. 3 Fisheries and Oceans Canada, Ecosystem Science, Ottawa, ON, K1A 0E6, Canada. 4 Owens Coastal Consultants, Bainbridge Island, WA, 98110, United States. 5 Center for Natural Resources Development and Protection, Department of Civil and Environmental Engineering, New Jersey Institute of Technology, Newark, NJ, 07102, United States. |
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Description: |
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. |
