Remote Detection and Maritime Pollution. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
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Жанр произведения: Биология
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isbn: 9781119801832
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parts are beyond the scope of this chapter and will be part of other chapters.

      1.2.1. Objectives

      The POLLUPROOF (PROOF improvement of HNS maritime POLLution by airborne radar and optical facilities) project would enhance the capabilities of French Customs to detect, locate and classify pollutants (other than hydrocarbons) originating from ship emissions (including particulates), in order to collect evidence for the prosecution of offenders while ensuring an effective intervention in the case of accidental discharge at sea.

      The project is funded by ANR ECO-TECH 2013, and the members of the consortium have a recognized and complementary expertise in the field of aerial detection and marine pollution: ONERA, DGDDI, CEDRE, CEPPOL, Agenium, AVDEF and DRDC. In addition to the consortium, Transport Canada (TC) acts as an end-user and member of the steering committee. The project began in January 2014 and concluded in mid-2017.

      The objectives of this project are:

      1 1) to verify the ability to detect, locate and classify at least three of the six most noxious liquid substances transported by sea in Europe;

      2 2) to achieve a reduction of spilled noxious liquid substances equivalent to the level for hydrocarbon emissions;

      3 3) to develop a stronger policy to control the release of noxious gases within the sulfide emission control areas (SECA).

      These objectives will be achieved by:

       – deployment of radar (SAR/SLAR) and optical sensing (hyperspectral cameras) capabilities for detecting liquid pollutants at sea;

       – evaluation of the complementarity of optical and radar information;

       – identification of gaseous discharges of engine emissions and liquid pollutants using hyperspectral analysis.

      To accomplish these activities, the POLLUPROOF project will analyze the needs of French Customs regarding aerial detection and will proceed with:

       – calibration of optical measurements on liquid pollutants in mesoscale (test-tank) experiments located at CEDRE;

       – airborne measurements of sea spills using hyperspectral optical and radar sensors, following the test-tank analysis;

       – algorithm development for detection, location and classification of pollutants. The consortium will then produce a data gathering evidence methodology. French Customs staff will evaluate the effectiveness and applicability of these advances using a human–machine interface.

      1.2.2. Hazardous and noxious substances

      Rapeseed oil: rapeseed or colza oil is a vegetable oil obtained from crushed colza seeds. At ambient pressure and temperature, rapeseed oil is a viscous liquid with a specific gravity of 0.910. Rapeseed oil is insoluble in water and does not evaporate (vapor pressure below 0.01 kPa at 25°C); these characteristics classify rapeseed oil as a floater F in the SEBC.

      FAME: fatty acid methyl esters are biofuel directly added to conventional fuels such as diesel. At ambient pressure and temperature, they are a liquid with a specific gravity of 0.888. This product is virtually insoluble in water (solubility of 0.023 mg.L−1 at 20°C) and has a relatively low evaporative potential (vapor pressure of 0.42 kPa at 25°C) making it a floater F in the SEBC.

      Toluene: toluene, also named methylbenzene or phenylmethane, is an aromatic hydrocarbon that is commonly used as a chemical reagent or solvent, particularly in the industrial sector. Toluene is a liquid at ambient pressure and temperature and has a specific gravity of 0.867. Toluene is nearly insoluble in water (535 mg.L−1 at 25°C) and tends to evaporate relatively easily (vapor pressure of 2.91 kPa at 20°C). Considering the SEBC classification, toluene is a floating and evaporating (FE) substance.

      Heptane: heptane is the generic term to identify one of the nine isomers of C7H16, and is a saturated hydrocarbon of the linear alkane family. This is a constituent of fuel and is used as an extraction solvent, a synthesis intermediate in the chemical industry and as a solvent for glues, inks, rubbers and plastics. At ambient pressure and temperature, heptane is a volatile liquid (6–7.7 kPa at 20°C) and nearly insoluble in water (< 2 mg.L−1 at 20°C). With a specific gravity of 0.710, heptane is lighter than water and floats. According to the SEBC classification, heptane is considered as an evaporator E.

      Methanol: methyl alcohol or methanol is the simplest alcohol with the chemical formula CH3OH. At ambient temperature, this polar liquid is used as antifreeze (for coolant, for example), solvent or fuel (in aeromodeling, for example). Methanol is not present in large amounts in nature and is industrially produced. It is mainly used as the basic material for chemical synthesis of more complex chemical products. Nearly 40% of methanol is converted into formaldehyde, which is then transformed into plastics, synthetic resins, paints, explosives or fabrics. Methanol is a light liquid (specific gravity of 0.791), volatile (vapor pressure of 12.3 kPa at 20°C), miscible in water, inflammable and toxic with a characteristic odor. These properties enable the classification of methanol as a DE (Dissolving and Evaporating) substance.

      The experimental approach is divided into two parts: first, the calibration of optical sensors on liquid pollutants in mesoscale experiments; second, airborne measurements of sea spills using hyperspectral optical and radar sensors.

      1.3.1. Calibration of optical sensors

      The calibration of optical measurements on liquid pollutants was realized in mesoscale (test-tank) experiments located at CEDRE (Brest) in October 2014. Three configurations were tested, with each one having specific objectives:

       – vertical configuration: comparison between clean water and water covered by a chemical;

        – horizontal configuration: