Agilent Technologies G6600-90006 manual Chemical Trap, Oil Coalescing Filter, FID Adapter Optional

Page 33

Collection and transfer of the combustion gases from the Burner to the reaction cell.

Transfer of ozone from the ozone generator to the reaction cell.

Reduction of non-radiative collisional quenching of the emitting species in the chemiluminescent reaction cell.

The higher vacuum produced by the oil-sealed rotary pump facilitates a shorter residence time in the reaction chamber, and therefore reduces the incidence of collisional relaxation of the excited SO2. This results in slightly lower detection limits using the oil-sealed pump as compared to the oil-free pump.

Chemical Trap

To protect the vacuum pump from exposure to ozone, a chemical trap is located at the inlet of the vacuum pump. This trap contains a catalyst that converts ozone to diatomic oxygen. This trap is a consumable part and should be replaced every 90 days of continuous Detector usage.

Oil Coalescing Filter

The oil-sealed rotary vacuum pump is operated with the gas ballast partially open to aid in the elimination of water produced in the Burner and transferred to the pump. As a result of the open gas ballast and the high flow rates of gases, oil vaporized in the pump can escape through the pump exhaust. To minimize oil loss, an oil coalescing filter is placed on the pump exhaust to trap vaporized oil and to return this oil to the vacuum pump oil reservoir. This is not necessary for use with the oil-free pump. A replaceable element in the filter is a consumable part and should be replaced every 90 days of continuous use.

FID Adapter (Optional)

The Agilent 355 Sulfur Chemiluminescence Detector is designed to mount into most GC detector ports and operate as a stand-alone sulfur detector. For some applications it is desirable to monitor both sulfur and hydrocarbon components using a single column without splitting. For this reason, Agilent offers a few adapter kits to mount the Dual Plasma Burner onto a Flame Ionization Detector for the simultaneous collection of FID and SCD chromatograms. During dedicated SCD operation, 100% of the column effluent passes through the Burner to the Detector. During simultaneous detection approximately 10-20% of the FID exhaust gases are drawn into the Burner through a restrictor, which reduces sulfur sensitivity to approximately 1/10 of the signal observed in a dedicated SCD Burner.

NCD Reaction Cell

The model 255 NCD reacts nitric oxide from the Burner and ozone from the Ozone Generator in the Chemiluminescence Reaction Cell. The reaction occurs

Operation and Maintenance Manual

33

Page 32 Page 34
Image 33
Page 32 Page 34
Contents Operation and Maintenance Manual Safety Notices WarrantyAcknowledgements Manual Part NumberWA R N I N G EnglishIs not in use Español Français Deutsch Italiano Veiligheidsvoorzieningen niet meer DutchFollowing symbols are used on the equipment Contents Overview InstallationOperation Front Panel Controls and Initial StartupPump Maintenance MaintenanceIndex TroubleshootingOperation and Maintenance Manual Introduction Operation and Maintenance Manual System Description Specifications Technical Information 355 SCDTechnical Information 255 NCD Power requirements Physical SpecificationsVoltage Theory of Operation Sulfur Chemiluminescence DetectorNitrogen Chemiluminescence Detector Dual Plasma Burner with the 355 SCD Dual Plasma ControllerDual Plasma Burner Description of Major ComponentsCross-Section of the Dual Plasma Burner for the 355 SCD Cross-Section of the Dual Plasma Burner for the 255 NCD Chemiluminescence Reaction Cell and Photomultiplier Tube Ozone Generator355 SCD Left Side 355 SCD Right Side 255 NCD Left Side View Vacuum Pump Pressure TransducerOil Coalescing Filter Chemical TrapFID Adapter Optional NCD Reaction CellNCD Photomultiplier Tube and Cooler Schematic for 355 SCD Schematic for 255 NCD, in Nitrogen Mode Schematic for 255 NCD, in Nitrosamine Mode Operation and Maintenance Manual Installation Overview Selecting a Location Power RequirementsCombustion Gas Requirements Environmental ConsiderationsTwo-stage pressure regulators Venting Gases Unpack and Inspect the Instrument Required Installation ToolsInstalling the Edwards RV5 Pump Oil-Sealed Vacuum Pump Set Up the Vacuum PumpWA R N I N G Ard RV5 Oil-Sealed Vacuum Pump and Associated Traps Front Side RV5 Oil- Sealed Vacuum Pump and Associated Traps Top Setting the Gas Ballast Position RV5 Installing the Welch Dry Piston Vacuum Pump Operation Notes Welch Pump Welch Dry Piston Pump Operation and Maintenance Manual SCD 230 V Unit Rear Panel Diagram Connect the Power CordInstall the Dry Compressed Air or O2 Supply Install the Signal Output Cables Additional information Install the Dual Plasma BurnerDual Plasma Controller Rear Panel Install the Dual Plasma ControllerInstall Column Connections Capillary ColumnsPacked Columns and Columns with an Outside Diameter 0.8 mm Install the Transfer Line Front Panel Controls and Initial Startup Detector Front Panel Controls Power ControlsDisplay Output Controls Signal ControlsDual Plasma Controller Front Panel Dual Plasma Controller ControlsVacuum Test Initial StartupRecorder Test Initial Checkout Detector Interface SetupIgnition Operation Start-Up Procedure Detector Stability and Response Detector OperationColumn Bleed CokingFluctuating Pressures Contaminated GasesTypical Operating Conditions Typical Operating ConditionsExpected Detection Limits for Chromatographic Conditions Detection LimitsInstrument Shut-Down Daily ShutdownComplete Shutdown Special Operating Modes Using the 255 NCD in Nitrosamine ModeOperation and Maintenance Manual Operation and Maintenance Manual Maintenance Operating Life of Components for Edwards RV5 Vacuum Pump Pump MaintenanceCleaning the Detector Changing the Oil Mist Filter RV5 Equipment Reaction Cell CleaningReaction Cell, PMT Housing and PMT Socket WA R N I N G Flow Sensor Calibration MDL Detector SensitivitySCD Proper Ferrule Orientation to the Large Ceramic Tube Orientation of the Double Taper Ferrule Tightening the Heater Swivel Nut Operation and Maintenance Manual NCD Proper Ferrule Orientation to the Large Quartz Tube Burner Assembly Detail Tube Replacement for the SCD Positioning the Upper Tube in the Union Fitting 100 Operation and Maintenance Manual Operation and Maintenance Manual 101 Tube Replacement for the NCD Operation and Maintenance Manual 103 NCD Tube Replacement Detail Troubleshooting Solving Detector Problems Detector Fuse Power ProblemsVacuum Pump Fuse Dual Plasma Controller FusesFuse Positions on the Power Supply Board High Voltage Transformer Ozone Generation ProblemsPlugged Restrictor Lines Response Problems Temperature Reading Problems Troubleshooting Detector Issues Diagnosing General ProblemsDetector gases Troubleshooting Pump Issues Troubleshooting Burner Issues Index Agilent Technologies, Inc
Top Page Image Contents