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Process Gas Chromatographs. Tony WatersЧитать онлайн книгу.

Process Gas Chromatographs - Tony Waters


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careful of the terminology: the chromatograph is an instrument, not a graphical plot.

      Illustrative graphics: (a) Upper. Classic strip‐chart record; sample injection at right, time progresses right to left. (b) Lower. Modern on‐screen display; sample injection at left, time progresses left to right. Graph depicts the typical Chromatograms. (Upper) Classic strip-chart record. (Lower) Modern on-screen display.

      Note: The book uses many simplified chromatograms like these to illustrate chromatographic principles: they do not represent real chromatograms.

      The vertical axis of the chart indicates detector response. Chromatograms in this book don't show a calibrated vertical axis because it's rarely significant. The chromatogram is just the raw detector response, and the PGC must heavily process that signal to yield the analytical measurements.

      When working on a computer‐controlled PGC, you can expand or compress the horizontal or vertical axes of the chromatogram to obtain a more detailed view of the area of current interest.

      When only carrier gas is coming out of the column, the chromatogram should display a flat baseline with no change over time. Then, when some component molecules emerge from the column and enter the detector, the detector outputs a signal proportional to the rate of arrival of those molecules.

      Real peaks are not perfect in shape. Note the gradual increase in peak width with elapsed time (left to right) and the asymmetric peak for acetylene. Schematic illustration of a real Chromatogram. Real peaks are not perfect in shape.

      Source: Yokogawa Electric Corporation. Reproduced with permission.

      The output signal of the detector is proportional to the instantaneous number of component molecules it is seeing. Therefore, the area under a chromatogram peak is a true measure of the total number of component molecules passing through the detector. As a compromise, we shall see the occasional use of peak height as a surrogate for peak area as it may be easier to measure.

      Chromatographers are so used to seeing peaks on the chromatogram that they even use the word “peak” to describe the molecules of a component as it travels through the column system. In colloquial chromatography, each cluster of molecules in the column is a peak even if those molecules never reach the detector and never appear as a real peak on the chromatogram. This shorthand terminology makes it easier to describe the movement of sample molecules in the column: it's far easier to say:

       “the column separates the propane peak from the ethane peak”

      than:

       “the column separates the cluster of propane molecules from the cluster of ethane molecules”

      The chromatogram readout is a vital design and troubleshooting tool; so much so that it's difficult to overstate its usefulness. Discounting electrical failures that are easy to fix, all faults are visible on a chromatogram, either directly or by comparing the current chromatogram with a previous one.

       All chromatographic faults are visible on the chromatogram. So, to become an expert troubleshooter, you must learn to read the chromatogram!

      Some faults are directly observable, such as a timing error or a missing peak. But a chromatogram holds a lot more information than that; the position and shape of the peaks tell us what they are, and whether the columns are working at full efficiency.

      As an example of chromatogram reading skill, review the chromatograms in Figure 1.7. The peaks are nicely separate from each other, and it looks like a good analysis. But an expert observer would know that the column is not working well. By adjusting a few settings, an expert could improve the performance of the column and do the analysis in half the time!

      The expert observer would also notice that the author has misidentified the last peak; it can't be isobutane on any column. It's probably n‐butane instead. Expert users see information in the chromatogram that eludes novice users. That's why they are experts.

      Keep on reading! The next three chapters will show you how to discern patterns in the shape and position of chromatogram peaks. From those patterns, you will make the same deductions about Figure 1.7 as our expert observer did.

      A chromatogram contains all the information needed to optimize column performance or to diagnose chromatographic problems. If you aspire to be an expert PGC applications engineer or troubleshooter, learn to read the chromatogram. Waters (2017) has summarized these diagnostic skills in a compact format.

      Knowledge Gained

       Chromatography is a general method of separation and includes many different practical techniques.

       Chromatography uses a fluid mobile phase passing over a liquid or solid stationary phase.

       In gas chromatography, the mobile phase is gas; in liquid chromatography, the mobile phase is liquid.

       Chromatographic analyzers separate the desired analytes and then measure them one by one.

       Other analyzers attempt to measure the analyte molecules in the presence of other molecules.

       Gas


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