Model 5320 Electrolytic Conductivity Detector (ELCD) Specification Sheet0 pages
GC DETECTORS
Model 5320 ELCD
Electrolytic Conductivity Detector
Description
ELCD Capabilities
The Model 5320 Electrolytic Conductivity Detector
(ELCD) is a third-generation ELCD designed for selective
detection of halogen-containing compounds. The 5320
ELCD consists of three principal components: the reactor
assembly, the cell-solvent assembly, and the detector
controller. The ELCD’s principal mode of operation is the
halogen mode (X); sulfur (S) and nitrogen (N) modes are
also available. Each detection mode kit contains all of the
required materials (except the solvent) to operate the ELCD
in the specied mode.
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Quick-change reactor design, disposable resin
cartridge, and reliable solvent system
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Analog-controlled reactor temperature and
solvent ow
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Detector base optimized for capillary columns
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Solvent venting using GC timed-event relay
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Direct interface with most GC makes and models
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Direct interface to the OI Analytical Model 4430
PID without a transfer line; the tandem design
occupies only one detector port
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QA/QC
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Petroleum Products
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Process Control, Testing, and Anlaysis
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Fluorinated and Chlorinated Contaminants in
Process Streams
Operating Principle
The ELCD converts halogen compounds eluting from
a GC column to an ionizable gas (HX) using reductive
conditions in a high-temperature catalytic microreactor.
Gaseous reaction products carried into the detector cell
become dissolved in a deionized solvent, which increases
the electrolytic conductivity of the mixture. The detector
amplies this instantaneous change in conductivity,
producing a signal proportional to the mass of halogen in
the original compound.
Principal Applications
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USEPA Methods (502.1, 502.2, 601, 608, 611,
8010, 8021)
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VOCs
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Pesticides
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Halogenated Compounds
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