000 02206cam a2200277zu 4500
001 88962711
003 FRCYB88962711
005 20250429180322.0
006 m o d
007 cr un
008 250429s2023 fr | o|||||0|0|||eng d
020 _a9780443137785
035 _aFRCYB88962711
040 _aFR-PaCSA
_ben
_c
_erda
100 1 _aLi, Ying
245 0 1 _aOil Spill Detection, Identification, and Tracing
_c['Li, Ying']
264 1 _bElsevier Science
_c2023
300 _a p.
336 _btxt
_2rdacontent
337 _bc
_2rdamdedia
338 _bc
_2rdacarrier
650 0 _a
700 0 _aLi, Ying
856 4 0 _2Cyberlibris
_uhttps://international.scholarvox.com/netsen/book/88962711
_qtext/html
_a
520 _aOil Spill Detection, Identification and Tracing provides readers with currently applicable technical methods, including early warning monitoring of trace oil film in ports, remote sensing monitoring of sea surface oil spills, and source tracing. Beginning with the causes and characteristics of oil spills on water, chapters then evaluate a range of different detection methods, including passive optical remote sensing, active optical remote sensing, marine radar, and GNSS-R. The book then reviews oil spill traceability technology, highlighting the ecological effect of oil spills on oceanic environment, current studies on oil spill fingerprinting, and the application of stable isotope technology in oil spill tracing. The book concludes with three key case studies with real-world scenarios, making it a practical resource for students, researchers and engineers interested in oil spill pollution, environmental science and the marine environment. - Includes principles and methods of emerging remote-sensing technologies (e.g., fluorescent remote sensing, marine radar, and GNSS-R to monitor oil spills) - Provides a detailed introduction of oil-spill traceability technology, especially the use of stable isotope analysis for oil spill tracing - Describes the application of detection, identification and tracing technologies used in marine oil spill research - Focuses on prevention and remediation through technological advances
999 _c1322067
_d1322067