Cost-Effective Time and Labor Savings
Advances in IC automation have simplified operation while
increasing precision and accuracy. However, eluent preparation,
calibration, and equilibration still take operator and instrument
time away from analysis. To save time and labor, Eluent
Regeneration was developed for systems dedicated to high-throughput
analyses of samples with low- to moderate-concentration matrices.
Reagent-Free™ IC systems with Eluent Regeneration
(RFIC-ER™ systems) are designed to use carbonate,
carbonate/ bicarbonate, or MSA eluents for isocratic separations.
Eluent Regeneration is available as an optional configuration or
upgrade for ICS-1100, -1600, -2100, and -3000 systems.
Eluent regeneration uses the suppressor to reconstitute the
starting eluent, allowing use of a single 4-L bottle of eluent for
up to four weeks. Because the system is a closed loop, it can run
continuously, eliminating the need for recalibration or
re-equilibration during the 28 days of non-stop operation. Eluent
preparation and waste disposal are both reduced from approximately
48 L to 4 L per month, reducing not only labor but also costs for
materials and hazardous waste disposal.
Regenerating Eluent
The 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 the analyte ions. The suppressed eluent is then returned to
the suppressor to provide the water for electrolytic suppression.
The effluent from the suppressor contains the eluent ions and
H2 and O2 gases. A catalytic column
recombines the oxygen and hydrogen to form water. The suppressor
effluent is then returned to the eluent reservoir for reuse.
Because the electrolysis gases are recombined stoichiometrically,
no water is lost in the system and eluent concentration remains
constant. A purification column is plumbed after the pump to
further assure eluent purity.
Care-Free Consistency
Eluent regeneration not only reduces labor, it also increases
consistency over manual eluent preparation. Because the same eluent
is used for up to four weeks, variations in preparation procedures
are eliminated. Stable eluent concentration yields reproducible
results, with little variability in peak retention times or areas.
The system does not need to be recalibrated as it would if eluent
were prepared manually. A routine calibration check standard is
sufficient to assure accuracy. Because the system forms a closed
loop, it can be left running without the need to empty waste or
prepare eluent for up to four weeks. Continuous operation
eliminates the need to re-equilibrate, and with no need to prepare
eluent, all the operator has to do is load a sample. This means
higher sample throughput and more time for operators to pursue
other tasks. Pump maintenance is also reduced, since the flowing
eluent has no chance to crystallize on pump surfaces. Eluent can be
regenerated for up to four weeks for analysis of samples with low-
to moderate-concentration matrices, such as drinking water. Higher
injection volumes or heavy workloads may require more frequent
replacement or regeneration of trap and purification columns and
eluent. Chromeleon software wellness features monitor eluent, trap,
and column usage, and alert operators when replacement or
regeneration is necessary.
Overlay of seven daily calibration check standards separated on
an ICS-1500 RFIC-ER system using regenerated carbonate/ bicarbonate
eluent. RFIC-ER systems can run for up to a month using a single
eluent preparation without requiring recalibration or
re-equilibration.
Percent peak area changes over 28 days for a seven-anion
calibration check standard separated using a 4-mm
IonPac® AS22 column on an ICS-1500 RFIC-ER system with
regenerated carbonate/ bicarbonate eluent. The system passed the
daily calibration check for an entire month, requiring only one 4-L
bottle of eluent.
Carbonate eluent regenerated using an ASRS® 300
suppressor.