Oil pollution of natural waters represents a serious threat for aquatic ecosystems, and the assessment of the degree of pollution requiresmeasurement strategies including remote sensing and modeling. While surface oil pollution is relatively easy to detect with radar or opticalremote sensing, underwater oil emulsions can only be detected using visible light as an information carrier. Here the Michelson contrast ofsea area polluted by an oil-in-water emulsion under various wind conditions is simulated through Monte-Carlo modeling. The results showthe premise for optimal direction of observations in which the possibility of detecting the emulsified oil is maximized
The strong need to control investments related to oil extraction and the growing demand for offshore...
The downwelling light in seawater is shaped by natural seawater constituents as well as by some exte...
Assessment of oil spills in the ocean using passive remote sensing (i.e., reflected sun light) faces...
Oil pollution of natural waters represents a serious threat for aquatic ecosystems, and the assessme...
Oil pollution of natural waters represents a serious threat for aquatic ecosystems, and the assessme...
The radiance field in oil-polluted seawater determined at various depths for the central band of the...
Relatively great number of detected and confirmed oil spillages in the Polish marine areas reveals t...
Development of industry and trade in the last few decades caused a huge increase in the pollution of...
Significant amounts of crude oil transported from offshore fields to the refineries using tankers or...
The accuracy and correct interpretation of optical parameters of seawater depend on the complete inf...
Oil floating on the sea surface can be detected by both passive and active methods using the ultravi...
The article presents the results of simulations that take into account the optical parameters of the...
The remote detection and quantification of oil spills and hydrocarbon seepage represent a key resear...
The knowledge of the optical contrast of an oil layer on the sea under various surface roughness con...
Remote sensing techniques currently used to detect oil spills have not yet demonstrated their applic...
The strong need to control investments related to oil extraction and the growing demand for offshore...
The downwelling light in seawater is shaped by natural seawater constituents as well as by some exte...
Assessment of oil spills in the ocean using passive remote sensing (i.e., reflected sun light) faces...
Oil pollution of natural waters represents a serious threat for aquatic ecosystems, and the assessme...
Oil pollution of natural waters represents a serious threat for aquatic ecosystems, and the assessme...
The radiance field in oil-polluted seawater determined at various depths for the central band of the...
Relatively great number of detected and confirmed oil spillages in the Polish marine areas reveals t...
Development of industry and trade in the last few decades caused a huge increase in the pollution of...
Significant amounts of crude oil transported from offshore fields to the refineries using tankers or...
The accuracy and correct interpretation of optical parameters of seawater depend on the complete inf...
Oil floating on the sea surface can be detected by both passive and active methods using the ultravi...
The article presents the results of simulations that take into account the optical parameters of the...
The remote detection and quantification of oil spills and hydrocarbon seepage represent a key resear...
The knowledge of the optical contrast of an oil layer on the sea under various surface roughness con...
Remote sensing techniques currently used to detect oil spills have not yet demonstrated their applic...
The strong need to control investments related to oil extraction and the growing demand for offshore...
The downwelling light in seawater is shaped by natural seawater constituents as well as by some exte...
Assessment of oil spills in the ocean using passive remote sensing (i.e., reflected sun light) faces...