Super-Sealed Liquid Flow Cells Operation and User Manual
Contents
1. 1 A 2534 38 cm A 1138 93 cm and N 29 From this we calculate the actual pathlength to be 0 104 mm spectral Systems offers an optional cell calibration for their Super Sealed Liquid Flow cells This factory calibration provides you with verification of cell pathlength especially useful in regulated laboratory environments With selection of the Calibration of Liquid Flow Cell option you will receive a label on the cell and a certificate stating the factory calibrated cell pathlength It is important to remember that cell pathlength could change with use i e solubility or abrasion of window material Figure 1 Spectrum of 0 1 mm pathlength Super Sealed Cell with use Minimum Spectral Resolution Required CELL MINIMUM PATHLENGTH SPECTRAL mm RESOLUTION cm 10 0 25 D 0 5 1 2 5 0 5 9 0 Table 1 Sampling Procedures Samples measured in sealed liquid flow cells are generally a component in a base liquid for example an additive in fuel for a combustion engine Generally the pathlength of the liquid cell is chosen to optimize the absorbance of the component which needs to be measured Often the components of interest are at low concentrations within the base liquid parts per million ppm and low percentage levels are typical Therefore we generally need to choose longer pathlength cells to see and measure these low concentration levels The primary absorbance b2. SUPER SEALED LIQUID L gt OPERATION AND USER MANUAL PRECISION IN OPTICS Spectral Systems PRECISION IN OPTICS E Spectral Systems Y Optimized Design for Continuous Flow Applications e Rugged heavy duty design compatible with continuous use e Large IR port diameter to accommodate high flow rates e Proprietary seal technology for leak free operation e Designed for optimized flow e Rectangular plate design to fit your FT IR spectrometer standard slide mount e Proprietary coating applied to high refractive index windows to maximize IR throughput and minimize undesirable fringing e Individually serialized to aid in record keeping e Optional factory calibration for your convenience and method certainty Introduction The Spectral Systems Super Sealed M Liquid Flow Cells are designed and manufactured for continuous flow infrared transmission sampling applications The large port diameter permits higher flow rates to speed feedback of component concentration spectral Systems Super Sealed Liquid Flow Cells are designed for optimized laminar flow allowing the sample to flow with minimized lateral mixing The proprietary seal technology used in our Super Sealed Liquid Flow Cells provides for leak free operation exceptional durability and maximum sample compatibility The cell mount for the Super Sealed Liquid Flow Cell is the standard 2 0 x 3 0 side mount to fit your FT IR spectrometer All Super Sealed Liqui
3. ands from the base liquid generally are out of the linear range of the spectrometer and therefore cannot be used to internally calibrate the pathlength of the measurement In these cases the use of a fixed and reproducible pathlength cell is essential In some sample measurements weakly absorbing bands of the base liquid can be used as a measure of the liquid cell pathlength In these cases the absorbance of the component of interest can be ratioed to an absorbance band of the base liquid to determine concentration and a fixed pathlength cell aids in the precision of the quantitative measurements Using the Liquid Flow Cell The Super Sealed Liquid Flow Cell is configured with two Luer Lock ports for connection with liquid flow tubing It is very important to use proper procedure for flowing liquid through the cell Flow through the cell is engaged by using a peristalic pump e Gently connect flow tubing inserted into the sample reservoir and fitted with Luer Lock connectors onto the bottom port one of the flow cell e Gently connect the flow tubing connected to the peristaltic pump onto the upper Luer Lock fitting of the flow cell e Flow through the cell must be pull via the peristaltic pump to prevent damage e Slowly increase the setting of the peristaltic pump to pull the flow to the desired rate Do not set excessive flow rates which may cause bubbles to form in the cell or may cause damage to the flow cell e Exa
4. d Flow Cells are manufactured with Luer Lock fill ports for covenient coonection with flow tubing and peristaltic pumping systems The Super Sealed Liquid Flow Cells are available with your selection of sampling pathlength and window materials Window materials used in the Super Sealed Liquid Flow Cells are of the highest quality composition and maximum flatness for precision quantitative analysis To increase IR throughput and minimize spectral fringing of high refractive index window materials we utilize our Spectral Systems XP BBAR coating on our Super Sealed Liquid Flow Cells Please contact us for additional performance features For your convenience we offer factory calibrati ny of our Super Sealed Unpacking Your Product The Super Sealed Liquid Flow Cell will be packaged ina sealed plastic bag with desiccant When the Super Sealed Liquid Flow Cell is not in use it should be stored in a low humidity environment such as a desiccator to prevent fogging of hygroscopic IR windows What s included e Super Sealed Liquid Flow Cell e 2 Teflon stoppers for cell Please examine the contents and let us know if there has been a problem with shipping SPECIFICATIONS Plate Geometry Rectangular Plate Dimensions 2 0 W x 3 0 H IR Beam Port Geometry Oblong IR Beam Port 18mm W x 25mm H Nominal Pathlength 10 guaranteed Calibrated Pathlength Optional seal Type Proprietary leak free Fill Port Type Luer Lock W
5. indow Flatness A 5 at 10 6 micron Determining Cell Pathlength Your Super Sealed Liquid Flow Cell has been factory tested for pathlength prior to shipping to ensure that it is within 10 of its nominal pathlength You can determine its precise pathlength by using the following procedure dh Collect an open beam background spectrum on your FT IR 2 Collect the spectrum of the empty cell The resulting spectrum will exhibit a fringing pattern resulting from the reflection of the IR beam between the opposing surfaces of the open cell 3 Select a region of the spectrum where the fringing pattern Is distinct free of interference water bands etc and note beginning and ending point values in cm for a significant number of fringes Figure 1 shows the spectrum of a 0 1 mm Super sealed Cell Notes High spectral resolution is required for calculating the pathlength of the longer pathlength cells in order to provide sufficient data points for the measurement Table 1 shows minimum spectral resolution settings required For all shorter pathlength cells a spectral resolution setting of 4 cm is adequate 4 The pathlength of the cell can be calculated from the following equation Pathlength 10 N 2 A Where Pathlength value in mm N number of fringes between A and A A starting value in cm for measurement A ending value in cm for measurement In the example shown in Figure
6. mine the flow cell to ensure liquid maintains fill of the cell and that no bubbles are present e Collect IR spectra of the liquid as it flows through the cell e To remove sample from the flow cell remove the tubing attached to the Luer Lock fittings and install an empty glass syringe onto the lower port and slowly pull the plunger in the out direction to remove the sample Cleaning and Storing the Liquid Cell Before storing the liquid flow cell after use it is important to remove all sample residue to prevent long term damage to the cell E Pull a suitable solvent through the cell using the following method e Install a Luer Lock glass syringe with solvent onto the lower port of the flow cell Install an empty glass syringe onto the upper port of the flow cell Gently pull the plunger of the upper syringe out to draw the solvent into the flow cell It is recommended this be done three times using three times the volume each time of the liquid cell to completely remove sample residue e Store the Super Sealed Liquid Flow Cell in a desiccator to prevent damage to hygroscopic IR transparent windows Product Configurations The Super Sealed Liquid Flow Cell is available with your selection of sampling pathlength and window materials Table 2 shows a complete list of Spectral Systems part numbers for these configurations Each of the window materials have of course unique properties and capabilities relative to spec
7. t and versions with window wedging to improve performance for high resolution measurements are available Please contact us for more nformation for your requirements Spectral Range and Water Solubility for Super Sealed Liquid Flow Cells WINDOW MATERIAL CaF ZnSe Short Wavelength cm 79 500 5 000 Long Wavelength cm 1025 508 Solubility g 100g 0 0017 0 Table 3 Where SWL highest wavenumber LWL lowest wavenumber and solubility is the value at room temperature Replacement Parts DESCRIPTION Teflon Stoppers 12 each Glass Syringe 1 mL Glass Syringe 5 mL Glass Syringe 10 mL Super Sealed Liquid Cells Calibration PART NO DESCRIPTION PART NO 097 3711 Calibration of Liquid Cell 097 00 000 097 3801 097 3805 097 3810 Spectral Systems PRECISION IN OPTICS 35 CORPORATE PARK DRIVE e HOPEWELL JUNCTION NY 12533 PHONE 845 896 2200 e FAX 845 896 2203 e INFO SPECTRAL SYSTEMS COM WWW SPECTRAL SYSTEMS COM 2014 Spectral Systems Super Sealed is a trademark Spectral Systems Teflon is a registered trademark of E I du Pont de Nemours amp Co 9 15
8. tral range and water solubility We coat the outer surface of the ZnSe Super Sealed Liquid Flow cell with our XP BBAR to increase IR throughput and reduce fringing effects For your convenience we have listed these properties for each of the materials in Table 3 Safety Precautions It is essential to utilize safe laboratory procedures when using the Super Sealed Liquid Flow Cells Safety protective eyeglasses and laboratory gloves are required Follow proper cell filling and emptying procedures as outlined in Sampling Procedures Failure to do this may cause liquid cell damage and or exposure to the liquid sample Make sure your sample is compatible with the window material of the sealed cell Failure to do this may cause liquid cell damage and or exposure to the liquid sample If any damage to the cell is detected please contact Spectral Systems for assistance If the cell leaks it cannot be repaired in the field References 1 Conley Robert T Infrared Spectroscopy Allyn amp Bacon 1966 Part Numbers List for Super Sealed Liquid Flow Cells PATHLENGTH MM 1 00 2 00 4 00 VOLUME ML 0 47 0 94 1 88 CaF 097 76 001 097 76 002 097 76 003 ZnSe XP BBar 097 72 001 097 72 002 097 72 003 Table 2 Super Sealed Liquid Flow Cells include Teflon stoppers for storing the cell when not in use Special versions of these cells are also available from Spectral Systems Versions with specialized coatings to increase IR throughpu
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