k Deepwater Horizon Oil Spill Samples Undergo Nitrogen Evaporation ca. May 2010 On April 20, 2010, the Deepwater Horizon Drilling Platform exploded and sank, causing the largest oil spill yet recorded. Samples from the oil spill were collected by Louisiana USGS scientists Greg Swayze and Charlie Demas and sent for analysis in Menlo Park, CA. The samples were run through a liquid chromatograph column in order to separate the compounds of the petroleum. Following the preliminary separation, the dissolved samples are placed in a nitrogen evaporator. The nitrogen evaporator carefully evaporates only the solvent, leaving the separated samples behind. The nitrogen environment used by the evaporator ensures that the volatile compounds of the tar ball sample do not evaporate themselves Editorial Stock Photo - Afloimages
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Deepwater Horizon Oil Spill Samples Undergo Nitrogen Evaporation ca. May 2010 On April 20, 2010, the Deepwater Horizon Drilling Platform exploded and sank, causing the largest oil spill yet recorded. Samples from the oil spill were collected by Louisiana USGS scientists Greg Swayze and Charlie Demas and sent for analysis in Menlo Park, CA. The samples were run through a liquid chromatograph column in order to separate the compounds of the petroleum. Following the preliminary separation, the dissolved samples are placed in a nitrogen evaporator. The nitrogen evaporator carefully evaporates only the solvent, leaving the separated samples behind. The nitrogen environment used by the evaporator ensures that the volatile compounds of the tar ball sample do not evaporate themselves
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Deepwater Horizon Oil Spill - Samples Undergo Nitrogen Evaporation ca. May 2010

On April 20, 2010, the Deepwater Horizon Drilling Platform exploded and sank, causing the largest oil spill yet recorded. Samples from the oil spill were collected by Louisiana USGS scientists Greg Swayze and Charlie Demas and sent for analysis in Menlo Park, CA. The samples were run through a liquid chromatograph column in order to separate the compounds of the petroleum. Following the preliminary separation, the dissolved samples are placed in a nitrogen evaporator. The nitrogen evaporator carefully evaporates only the solvent, leaving the separated samples behind. The nitrogen environment used by the evaporator ensures that the volatile compounds of the tar ball sample do not evaporate themselves

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190737822

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Creation date
10-06-2022

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