Process Gas Chromatographs. Tony Waters
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Название: Process Gas Chromatographs

Автор: Tony Waters

Издательство: John Wiley & Sons Limited

Жанр: Отраслевые издания

Серия:

isbn: 9781119633013

isbn:

СКАЧАТЬ technical terms

      When first introduced, these words and phrases were in bold type. You should now know the meaning of these technical terms. If still in doubt, consult the Glossary at the end of the book:

      1 active‐solid column

      2 analysis time

      3 analyte

      4 application engineering

      5 atmospheric referencing

      6 autosampler

      7 baseline

      8 calibration factor

      9 capillary column

      10 carrier gas

      11 chromatogram

      12 chromatogram signal

      13 chromatograph

      14 chromatography

      15 column

      16 column oven

      17 column valve

      18 component

      19 detector

      20 elute

      21 flame ionization detector

      22 flame photometric detector

      23 gas chromatograph

      24 gas chromatography

      25 gas‐liquid chromatography

      26 gas‐solid chromatography

      27 housekeeping column

      28 inert support

      29 liquid chromatography

      30 liquid loading

      31 liquid‐phase column

      32 mobile phase

      33 molecule

      34 open‐tubular column

      35 packed column

      36 peak

      37 peak area

      38 peak height

      39 PLOT column

      40 retention time

      41 sample

      42 sample conditioning

      43 sample injector valve

      44 SCOT column

      45 separation

      46 stationary phase

      47 supercritical fluid

      48 temperature programming

      49 thermal conductivity detector

      50 volatile liquid

      51 WCOT column

      In addition, we introduced several chemical names and you need to know what they are. If you are not familiar with chemical names, refer to the SCI‐FILE: On Chemical Names in Chapter 4. You can also look up individual chemical names in the Glossary.

      Note

      1 1 There are some exceptions to the principle of instant vaporization that are beyond the scope of this introductory text.

      “What happens inside a column? What makes the peaks form? Why are peaks that funny shape? Why are some peaks wider than other peaks? These are good questions, and now is the time for answers”.

      You'll need to know how a column really separates molecules of one kind from molecules of another kind. It's not sufficient (nor true) to say that some kinds of molecule move faster than others do.

      You'll also need to know what determines the shape of a chromatogram peak, particularly its width. So let's look a little closer at some typical peaks.

      At this point, you should be wondering why identical molecules don't spend an identical amount of time in the column. Whatever happens in there, surely identical molecules must experience identical delay and emerge from the column at the same time? No, they don't. Some emerge a little earlier, and some emerge a little later. Any useful explanation of chromatography must account for that inconvenient fact.

      Of course, anything that makes a peak wider is a nuisance because it's more difficult to separate wide peaks from each other than to separate narrow peaks. So, as a practical matter, we need to know how to minimize the peak width, and that is one of the most important questions in gas chromatography! The answer will become apparent as you work through the book.

      What happens inside the column

      Inside the column, sample molecules that are traveling in the carrier gas touch the stationary phase. What happens next depends on what kind of stationary phase is present, a solid or a liquid.

      Most PGC columns employ a liquid stationary phase, which works by selectively dissolving the component molecules. Since they are so common, it is reasonable to use liquid‐phase columns as our example for explaining how the chromatographic process works. Therefore, the rest of this chapter will discuss only gas‐liquid interaction.

      Columns СКАЧАТЬ