Dissolved Gasses RSK

Tapping the natural gas reservoirs throughout the United States has long been a viable solution for energy independence; however, until recently getting to these shale gas reservoirs was very difficult.  Now, through the development of horizontal drilling in conjunction with hydraulic fracturing or “fracking”, these reservoirs have become much easier to tap for natural gas.  There are some environmental concerns with the fracking process that have come to light as fracking has gained popularity.  One major concern is the potential for natural gas to migrate into drinking water sources.  In order to test for the dissolved gases, the RSK-175 standard operating procedure (SOP) was developed.  This SOP involves some manual preparation of the water samples before the water can be analyzed.  Since manual preparation is very time consuming, and because RSK-175 is an SOP, there has been increased interest in standardizing and automating sample preparation for this analysis.  In 2017, the American Society for Testing and Materials (ASTM) published a standard for the determination of dissolved gases in water, D8028.  ASTM method D8028 standardizes the sampling and analysis of dissolved gases and provides the opportunity to automate the sampling process.

The LGX50 was designed to automate ASTM Method 8028.  The automation of this analysis (patent pending) involves using two sample trays, one tray to hold empty 40ml vials with a stir bar and one tray to hold the dissolved gas samples.  The LGX50 evacuates the empty vial.  Next, the sample is transferred from the full vial to the empty vial thus creating a headspace that retains the sample integrity by not exposing the sample or the sample pathway to the atmosphere.  The system then heats and stirs the sample for a prescribed time.  Finally, the sample is pressurized so as to fill a sample loop and transfer the sample to the GC/FID for analysis.  

If you are just getting started with dissolved gas analysis, contact us to reach one of our application specialists who would be glad to offer some tips and tricks. Feel free to look at some of our application notes which will help you on your way.

Application Notes

The RSK-175 standard operating procedure was developed in order to determine the amount of dissolved gas in water.  However, since the RSK-175 standard is a standard operating procedure and not a formal method, there have been many interpretations and modifications of RSK-175 in order to determine the amount of gas dissolved in the water.  This paper will consider three different approaches for dissolved gas calibration and analysis and the respective pros and cons.

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In order to test for possible dissolved gas contamination, most laboratories refer to a standard operating procedure entitled “RSK-175”.  This procedure calls for static headspace sampling of the water samples and calculating the amount of dissolved gas using Henry’s Constant.  However, as RSK-175 is standard operating procedure and not a formal method, interpretations can vary.  In order to address this issue, a formal method is currently being written by American Society for Testing and Materials (ASTM) Committee D-19.  This application will test for dissolved gases using the procedures established in the ASTM method.

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Tapping the natural gas reservoirs throughout the United States has long been a viable solution for energy independence; however, until recently getting to these gas reservoirs was very difficult.  Now, through the development of horizontal drilling in conjunction with hydraulic fracturing or “fracking”, these reservoirs have become much easier to tap for natural gas.  There are some environmental concerns with the fracking process that have come to light as fracking has gained popularity.  One major concern is the potential for natural gas to migrate into drinking water sources.

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Due to the expansion of natural gas drilling through horizontal fracturing, there has been increased interest in the RSK-175 Standard Operating Procedure (SOP) for the determination of dissolved gases in water.  This paper will discuss calibration by using static headspace sampling of vials spiked with different volumes of mixed gases.  Furthermore, the precision and accuracy of the calibration will be established by headspace screening of mixed gas standards and also by examining known concentrations of dissolved gases and back calculating experimental results using the Henry’s Constant and the saturated gas calculation.

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The American Society for Testing and Materials (ASTM) Method D8028 is a method to determine dissolved gases in water.  The method describes calibration and sampling techniques.  One of the recommendations is to ensure the sample is sealed in order to safeguard the integrity of the sample.  This recommendation is taken from United States Environmental Protection Agency (USEPA) Method 5030C used for the sampling of volatile organic compounds in water.  Many environmental labs currently open their dissolved gas samples in order to place them in a headspace vial for sampling and analysis.  This application will compare the efficacy of ensuring the sample is sealed versus opening the sample and pouring it into the sample vial for analysis.

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Testing for dissolved gases has, until recently, been done following the RSK-175 standard operating procedure.  However, as RSK-175 is not an accredited method, different interpretations of the method have been employed.  In order to address this issue, a formal method has been published by the American Society for Testing and Materials (ASTM) Committee D-19.  This application will test for dissolved gases using a Certified Reference Material (CRM) for Methane, Ethane, Ethylene and Propane using the procedures outlined in the D-8028 ASTM method.

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LGX-50 Liquid Gas Extractor

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