FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4280637028> ?p ?o ?g. }

• W4280637028 endingPage "5837" @default.
• W4280637028 startingPage "5837" @default.
• W4280637028 abstract "The rapid expansion in shipping traffic, oil tankers, and oil field exploration in coastal and marine areas has, inevitably, resulted in the occurrence of many oil spill accidents. Oil spill accidents, which cause serious socio-economic, health, and environmental risks in coastal and marine areas, are a global concern. An oil spill pollution risk distribution map, combining multiple spill sources, is an effective tool by which to identify high-risk areas, which may help decision-makers in adopting contingency response and integrated coastal management. However, the assessment of oil spill distribution and risk assessment has been restricted, due to their heavy dependence on laboratory experiments and model simulations lacking reliable shipping data, which often derive inaccurate mapping results. This study combines the automatic identification system (AIS) and other data to precisely quantify the spatial extent of accident risk in coastal China. Based on oil quantity, oil spill rate, and accident probability, the ship, oil storage tank, submarine pipeline, and oil platform accidents spill risk index is analyzed. Next, combined with the sensitive degree of a coastal area, considering environmental and social issues, the oil spill environmental risk index is calculated. The oil spill pollution risk level is classified into five categories based on the oil spill pollution risk index, namely the low-risk zone, relatively low-risk zone, moderate-risk zone, relatively high-risk zone, and high-risk zone. The relatively high oil spill environmental risk concentration zone is located in the Bohai Sea, inter-border area between the Yellow Sea and Bohai Sea, the Yangtze River estuary, south of the Taiwan Strait, and the Pearl River estuary. The high-risk zone in the Bohai Sea is 36,018 km2 in area, with an average risk value of 32.23, whereas the high-risk area in the Pearl River estuary is only 14,007 km2. The high-risk area proportions in Tianjin are 23.5%, while those in Fujian, Hainan, Jiangsu, and Guangxi are very low. The low-risk area proportion in Hainan Province is 62%, while the value in Tianjin is only 2.9%. This study will be helpful in assisting decision-makers in mapping the influence area of oil spills and adopting the important strategies and effective management and conservation countermeasures for ship accidents in the coastal areas of China." @default.
• W4280637028 created "2022-05-22" @default.
• W4280637028 creator A5027763139 @default.
• W4280637028 creator A5051156868 @default.
• W4280637028 creator A5054409228 @default.
• W4280637028 creator A5056646905 @default.
• W4280637028 creator A5057966975 @default.
• W4280637028 creator A5074175287 @default.
• W4280637028 creator A5088831445 @default.
• W4280637028 date "2022-05-11" @default.
• W4280637028 modified "2023-10-12" @default.
• W4280637028 title "Oil Spill Environmental Risk Assessment and Mapping in Coastal China Using Automatic Identification System (AIS) Data" @default.
• W4280637028 cites W1596370223 @default.
• W4280637028 cites W1870414953 @default.
• W4280637028 cites W1967726745 @default.
• W4280637028 cites W1979190025 @default.
• W4280637028 cites W1980524307 @default.
• W4280637028 cites W1994052452 @default.
• W4280637028 cites W1994431840 @default.
• W4280637028 cites W2017525137 @default.
• W4280637028 cites W2055237802 @default.
• W4280637028 cites W2059361635 @default.
• W4280637028 cites W2085949318 @default.
• W4280637028 cites W2143222473 @default.
• W4280637028 cites W2197912716 @default.
• W4280637028 cites W2201050185 @default.
• W4280637028 cites W2422544722 @default.
• W4280637028 cites W2470569432 @default.
• W4280637028 cites W2529782320 @default.
• W4280637028 cites W2552480886 @default.
• W4280637028 cites W2579601545 @default.
• W4280637028 cites W2600594123 @default.
• W4280637028 cites W2603155757 @default.
• W4280637028 cites W2738530664 @default.
• W4280637028 cites W2789342816 @default.
• W4280637028 cites W2885683523 @default.
• W4280637028 cites W2889481067 @default.
• W4280637028 cites W2891815239 @default.
• W4280637028 cites W2892349357 @default.
• W4280637028 cites W2950758002 @default.
• W4280637028 cites W2953355094 @default.
• W4280637028 cites W2964883681 @default.
• W4280637028 cites W3015547804 @default.
• W4280637028 cites W3016390146 @default.
• W4280637028 cites W3023648425 @default.
• W4280637028 cites W3048741073 @default.
• W4280637028 cites W3092974971 @default.
• W4280637028 cites W3095180121 @default.
• W4280637028 cites W3095983934 @default.
• W4280637028 cites W324188240 @default.
• W4280637028 cites W620266080 @default.
• W4280637028 doi "https://doi.org/10.3390/su14105837" @default.
• W4280637028 hasPublicationYear "2022" @default.
• W4280637028 type Work @default.
• W4280637028 citedByCount "7" @default.
• W4280637028 countsByYear W42806370282022 @default.
• W4280637028 countsByYear W42806370282023 @default.
• W4280637028 crossrefType "journal-article" @default.
• W4280637028 hasAuthorship W4280637028A5027763139 @default.
• W4280637028 hasAuthorship W4280637028A5051156868 @default.
• W4280637028 hasAuthorship W4280637028A5054409228 @default.
• W4280637028 hasAuthorship W4280637028A5056646905 @default.
• W4280637028 hasAuthorship W4280637028A5057966975 @default.
• W4280637028 hasAuthorship W4280637028A5074175287 @default.
• W4280637028 hasAuthorship W4280637028A5088831445 @default.
• W4280637028 hasBestOaLocation W42806370281 @default.
• W4280637028 hasConcept C10138342 @default.
• W4280637028 hasConcept C107826830 @default.
• W4280637028 hasConcept C111368507 @default.
• W4280637028 hasConcept C112930515 @default.
• W4280637028 hasConcept C12174686 @default.
• W4280637028 hasConcept C127313418 @default.
• W4280637028 hasConcept C14331377 @default.
• W4280637028 hasConcept C144133560 @default.
• W4280637028 hasConcept C162284963 @default.
• W4280637028 hasConcept C18903297 @default.
• W4280637028 hasConcept C2985668151 @default.
• W4280637028 hasConcept C32896092 @default.
• W4280637028 hasConcept C38652104 @default.
• W4280637028 hasConcept C39432304 @default.
• W4280637028 hasConcept C41008148 @default.
• W4280637028 hasConcept C521259446 @default.
• W4280637028 hasConcept C86803240 @default.
• W4280637028 hasConcept C87717796 @default.
• W4280637028 hasConceptScore W4280637028C10138342 @default.
• W4280637028 hasConceptScore W4280637028C107826830 @default.
• W4280637028 hasConceptScore W4280637028C111368507 @default.
• W4280637028 hasConceptScore W4280637028C112930515 @default.
• W4280637028 hasConceptScore W4280637028C12174686 @default.
• W4280637028 hasConceptScore W4280637028C127313418 @default.
• W4280637028 hasConceptScore W4280637028C14331377 @default.
• W4280637028 hasConceptScore W4280637028C144133560 @default.
• W4280637028 hasConceptScore W4280637028C162284963 @default.
• W4280637028 hasConceptScore W4280637028C18903297 @default.
• W4280637028 hasConceptScore W4280637028C2985668151 @default.
• W4280637028 hasConceptScore W4280637028C32896092 @default.
• W4280637028 hasConceptScore W4280637028C38652104 @default.
• W4280637028 hasConceptScore W4280637028C39432304 @default.

• next