Reagent-Free Ion Chromatography Systems with Eluent ... · systems Reagent-Free Ion Chromatography...

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systems Reagent-Free Ion Chromatography Systems with Eluent Regeneration Passion. Power. Productivity. Since the introduction of Reagent-Free ion chromatography (RFIC ) systems in 2003, Dionex has continued to simplify IC while increasing the capabilities and power of ion analysis. Eluent regeneration brings the consistency and ease of operation of RFIC systems to users with systems dedicated to the analysis of anions or cations in samples with low- to moderate-concentration matrices. Reagent-Free IC systems with Eluent Regeneration (RFIC-ER systems) use the suppressor to regenerate returning eluent, allowing a single preparation of eluent to be used for up to four weeks. RFIC-ER systems perform isocratic separations with carbonate or MSA eluents. For applications that require hydroxide eluents or eluent gradients, RFIC systems with Eluent Generation (RFIC-EG systems) are recommended. Eluent Regeneration for Ion Chromatography Eluent and regenerant preparation, equilibration, calibration, and waste disposal all take instrument and analyst time away from analysis. Variations in eluent and standard preparation can also be sources of error. RFIC-ER systems help reduce the work and variability in ion chromatography. Eluent regeneration takes advantage of the electrolytic suppressor to regenerate effluent returning from the conductivity cell. A single eluent preparation can be regenerated for up to four weeks, reducing labor and increasing consistency and reproducibility. RFIC-ER systems can regenerate eluent for isocratic IC separations using carbonate, carbonate/bicarbonate, or methanesulfonic acid. These always on, always ready systems are ideal for the analysis of drinking, ground-, and surface waters, and are intended for use as systems dedicated to these analyses.
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    ems Reagent-Free Ion Chromatography Systems with Eluent Regeneration

    Passion. Power. Productivity.

    Since the introduction of Reagent-Free™ ion chromatography (RFIC™) systems in 2003, Dionex has continued to simplify IC while increasing the capabilities and power of ion analysis. Eluent regeneration brings the consistency and ease of operation of RFIC systems to users with systems dedicated to the analysis of anions or cations in samples with low- to moderate-concentration matrices. Reagent-Free IC systems with Eluent Regeneration (RFIC-ER™ systems) use the suppressor to regenerate returning eluent, allowing a single preparation of eluent to be used for up to four weeks. RFIC-ER systems perform isocratic separations with carbonate or MSA eluents. For applications that require hydroxide eluents or eluent gradients, RFIC systems with Eluent Generation (RFIC-EG™ systems) are recommended.

    Eluent Regeneration for Ion Chromatography

    Eluent and regenerant preparation, equilibration, calibration, and waste disposal all take instrument and analyst time away from analysis. Variations in eluent and standard preparation can also be sources of error. RFIC-ER systems help reduce the work and variability in ion chromatography.

    Eluent regeneration takes advantage of the electrolytic suppressor to regenerate effluent

    returning from the conductivity cell. A single eluent preparation can be regenerated for up to four weeks, reducing labor and increasing consistency and reproducibility. RFIC-ER systems can regenerate eluent for isocratic IC separations using carbonate, carbonate/bicarbonate, or methanesulfonic acid. These always on, always ready systems are ideal for the analysis of drinking, ground-, and surface waters, and are intended for use as systems dedicated to these analyses.

    AnutaNew Stamp

  • Benefits of Eluent Regeneration• A single preparation of eluent

    can be used for up to four weeks, reducing labor and waste.

    • Trap, purification, and catalytic columns purify returning eluent, assuring consistent, high quality eluent for separations.

    • Consistent eluent concentration generates reproducible results.

    • Because it is a closed loop, the always on, always ready RFIC-ER system remains equilibrated and calibrated between eluent changes, up to four weeks.

    • Less-frequent eluent preparation reduces unintentional variations in concentration, increasing reliability and reproducibility.

    • RFIC-ER systems are designed for high throughput analyses of anions or cations in low- to moderate-concentration matrices.

    Principles of Eluent RegenerationThe same electrolytic process

    that suppresses eluent for detection is used to regenerate eluent for reuse. After detection, suppressed eluent is passed through an analyte trap column to remove analyte ions (Figure 1). The suppressed eluent is then returned to the suppressor to provide the water for electrolytic suppression. Eluent counterions migrate across the suppressor's ion-exchange membrane and enter the suppressor effluent stream. This effluent contains the eluent ions and H2 and O2 gases(Figure 2). A catalytic column recombines the oxygen and hydrogen to form water. Because the electrolysis gases are recombined stoichiometrically, no water is lost in the system and eluent concentration remains constant. The suppressor effluent is then returned to the eluent reservoir for reuse. A purification column is plumbed after the pump to further assure eluent purity.

    ChromeleonWorkstation

    ConductivityDetector

    Injector

    GuardColumn

    AnalyticalColumn

    Electrolytic Suppressor

    ConductivityCell

    Pump

    No external regenerant

    Catalytic ConverterColumn

    PurificationColumn

    ERController

    Analyte Trap Column

    15199-04

    Figure 1. Diagram of an RFIC-ER system.

    H2O 2H+ + ½ O2 + 2e

    Na+, X– in Na2CO3 Eluent

    Na+

    H2O, O2

    H+

    H+ + O2

    H2O

    H2O + H2CO3 H2O + H2CO3

    H2O

    2 H2O + 2e– 2OH– + H2

    Cation-ExchangeMembranes

    To Detector

    H+ + X–2H+ + CO3

    2– H2CO3

    H+, X– in H2CO3

    H2 + OH–

    Na2CO3, H2, H2O

    To Catalytic ColumnH2O, Na2CO3, O2, H2

    Regen Chamber Regen Chamber

    Anod

    e

    Cath

    ode

    25272

    Figure 2. Suppression and regeneration of a carbonate eluent using an ASRS® 300 suppressor.

    -20

    -5

    0

    5

    20

    1 6 11 16 21 26

    FClNO2BrNO3PO4SO4

    28

    Days

    Peak

    Are

    a Cha

    nge (

    %)

    -10

    10

    24562

    } Pass

    Figure 3. Graph of peak area changes over 28 days for a calibration check stan-dard injected once daily. Peak areas remained within the ±5% specification for the entire time; no recalibration was required.

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    15

    25075Minutes

    µS

    1

    2 34 5

    Column: IonPac CG12A, CS12A, 4 mmEluent: 20 mM MSAEluent Source: Regenerated MSAFlow Rate: 1.0 mL/minInj. Volume: 25 µLTemperature: 30 °CDetection: Suppressed conductivity, CSRS® 300, 4 mm, AutoSuppression® recycle mode, 59 mASample: Tap water spiked with 1 ppm potassium Peaks: 1. Sodium 2. Ammonium 3. Potassium 1 mg/L 4. Magnesium 5. Calcium

    60

    Figure 4. Overlay of chromatograms for 100 injections of tap water spiked with 1 mg/L potassium and determined using an ICS-1500 RFIC-ER system.

    Effortless ConsistencyConsistent eluent concentration

    helps produce consistent results. An RFIC-ER system is a closed loop, and can remain running without requiring more eluent or generating additional waste. When left running, the system remains equilibrated and calibrated between eluent changes. A routine check standard is enough to ensure calibration (Figure 3), reducing calibration frequency to once monthly.

    Figure 4 shows an overlay of 100 injections of a tap water sample, determined using regenerated MSA eluent. The peak retention times and areas are highly consistent. This represents 25 h of system operation without recalibration, reequilibration, eluent replacement, or waste disposal.

    Figure 5 shows this same consistency for calibration check standards run over the course of 32 days. Day-to-day and run-to-run, the RFIC-ER system produces reliable results without effort. All the operator has to do is load samples. The system takes care of the rest for up to a month.

    Anion Concentrator for ERThe AC-ER (4 × 16 mm) Anion

    Concentrator Column is a general purpose, low-dead-volume, extremely low-pressure anion concentrator col-umn for use with eluent regeneration systems. The AC-ER is available in a 4 × 16 mm format for very low dead volume to maximize the number of injections that can be made on an RFIC-ER™ system between eluent exchanges. The AC-ER has a capacity of 12.0 µeq/column and a void volume of approximately 70 µL.

    With an AC-ER column installed in an RFIC-ER system, each injection only adds 75 μL of sample matrix into the eluent regardless of the sample volume (70 µL + 5 µL for connecting tubing). Therefore, approximately 266 injections can be performed before the eluent needs to be replaced, regardless of the actual amount of sample loaded onto the concentrator.

    0 15

    24781Minutes

    µS

    12

    3

    4

    5 6

    Day 1

    Day 16

    Day 24

    Day 32

    Column: IonPac CG12A, CS12A, 4 mmEluent: 20 mM MSAEluent Source: Regenerated MSAFlow Rate: 1.0 mL/minInj. Volume: 25 µLTemperature: 30 °CDetection: Suppressed conductivity, CSRS ULTRA II, 4 mm, AutoSuppression recycle mode, 59 mA Peaks: 1. Lithium 2. Sodium 3. Ammonium 4. Potassium 5. Magnesium 6. Calcium

    Figure 5. Overlay of representative chromatograms for a calibration check standard run over the course of 32 days on an ICS-1500 RFIC-ER system.

    –20

    Minutes 26696

    µS

    200

    0 5 10 15 20 3025

    0.0626

    -0.0106

    µS

    0.6 2.5 4.5 6.5 8.5 10.6

    1

    1. Bromate

    Minutes

    Column: IonPac AG23, AS23, 4 mmConc. Column: IonPac AC-ER (4 × 16 mm)Eluent: 4.5 mM Sodium carbonate/ 0.8 mM Sodium bicarbonate Flow Rate: 1 mL/minInj. Volume: 500 µL, preconcentrated Detection: Suppressed conductivity, ASRS 300, 4 mm, AutoSuppression recycle mode

    Peaks: 1. Bromate

    Figure 6. Determination of bromate in a municipal water sample using a Reagent-Free™ IC system with eluent regeneration and an AC-ER Concentrator Column.

  • Reagent-Free, RFIC, RFIC-EG, and RFIC-ER are trademarks and ASRS, AutoSuppression, Chromeleon, and CSRS are registered trademarks of Dionex Corporation.

    Ordering infOrmatiOn

    To order in the U.S., call (800) 346-6390 or contact the Dionex Regional Office nearest you. Outside the U.S., order through your local Dionex office or distributor. Refer to the following part numbers.

    Eluent Regeneration Kits and Accessories

    RFIC-ER Anion Startup Kit ..................................................................067797Includes anion consumables kit and installation kit

    RFIC-ER Cation Startup Kit .................................................................067798Includes cation consumables kit and installation kit

    RFIC-ER Anion Consumables Kit ........................................................067791

    RFIC-ER Cation Consumables Kit .......................................................067792

    AC-ER Anion Concentrator Column ....................................................072778

    RFIC-ER 4 L Eluent Bottle ...................................................................066019

    Passion. Power. Productivity.

    LPN 2022-03 PDF 09/16 ©22016 Dionex Corporation

    dionex Corporation

    1228 Titan Way P.O. Box 3603 Sunnyvale, CA 94088-3603 (408) 737-0700 www.dionex.com

    eluent regeneratiOn SYStem SPeCifiCatiOnS

    Eluent ControllerDimensions (h × w × d):

    13.6 in × 4.1 in × 4 in34.5 cm × 10.5 cm × 10 cm

    Weight:1.76 lb0.8 kg

    Maximum Operating Pressure:3000 psi post pump 200 psi post suppressor

    Back Pressure:Less than 335 psi at 1.0 mL/min

    Maximum Flow Rate:2.0 mL/min

    Eluent Compatibility:Carbonate eluents up to 20 mM MSA eluents up to 34 mM

    Solvent Compatibility:Not compatible with organic solvents in mobile phase

    Temperature Range:5 °C to 40 °C

    Eluent Purification ColumnLifetime:

    91 days using AS23 chemistry

    Analyte Trap ColumnsCapacity:

    130,000 µL (e.g., 5200 × 25 µL injections)

    By using a matrix elimination step with the AC-ER in place, solvents can be directly injected onto the AC-ER then flushed off before injection into the RFIC-ER system, protecting the eluent from solvent contamination. The AC-ER concentrator brings a host of trace-level applications within range of RFIC-ER systems, including analysis of bromate to 5 ppb in drinking water (Figure 6), and analysis of common anions in ethanol.

    System ControlRFIC-ER system control is built

    into Chromeleon® Chromatography Data System Software. Wellness features monitor eluent, trap column, and purification column usage, warning the operator when replacement or regeneration is necessary.

    north america

    U.S./Canada (847) 295-7500

    South america

    Brazil (55) 11 3731 5140

    europe

    Austria (43) 1 616 51 25 Benelux (31) 20 683 9768; (32) 3 353 4294 Denmark (45) 36 36 90 90 France (33) 1 39 30 01 10 Germany (49) 6126 991 0 Ireland (353) 1 644 0064 Italy (39) 02 51 62 1267 Sweden (46) 8 473 3380 Switzerland (41) 62 205 9966 United Kingdom (44) 1276 691722

    asia Pacific

    Australia (61) 2 9420 5233 China (852) 2428 3282 India (91) 22 2764 2735 Japan (81) 6 6885 1213 Korea (82) 2 2653 2580 Singapore (65) 6289 1190 Taiwan (886) 2 8751 6655