Agilent Technologies G6600-90006 Dual Plasma Controller, Dual Plasma Burner with the 355 SCD

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Dual Plasma Controller

The Dual Plasma Controller provides all operational parameters of the Dual Plasma Burner except for the Detector base temperature. The Detector base temperature is controlled by circuitry in the GC. Parameters monitored or regulated by the Controller include Burner temperature, Burner temperature set-point, hydrogen and oxidant flow rates, and Burner pressure. The temperature set-point, actual pressure, oxidant and hydrogen flow rates are displayed by rotation of a 4-position switch. Power, valve operation, temperature within set-point range and fault conditions are indicated with LED illumination on the front display panel.

The Dual Plasma Controller incorporates several safety features. The safety circuitry detects faults such as power loss, vacuum loss, thermocouple failure, heater element failure, broken ceramic tube, or high temperature. When a fault is detected, the Fault LED illuminates and hydrogen and oxidant flow is stopped by normally-closed solenoid valves.

Dual Plasma Burner with the 355 SCD

The Dual Plasma Burner is based on the same chemistry and basic principles of earlier SCD Burner designs. A key difference, however, is the addition of a second “flame” or “plasma,” the lower is oxygen-rich and the upper is hydrogen-rich. The Burner consists of a tower assembly that contains an outer sheath for burn protection, a heating element, thermocouple, and combustion tubes. Conversion of sulfur containing compounds to SO occurs within the ceramic reaction chamber housed in the Burner assembly. Agilent also provides a Flame Ionization Detector (FID) option for the simultaneous collection of hydrocarbon and sulfur chromatograms for some GCs.

Dual Plasma Burner with the 255 NCD

Compounds eluted from the GC column are combusted in the Dual Plasma Burner first by an oxygen rich flame (plasma) followed by catalytic combustion on a Noble metal screen. For hydrocarbons, this two stage combustion technique results in complete conversion of the matrix to products, such as carbon dioxide and water, which do not chemiluminesce with ozone. Nitrogen atoms in a compound are converted into nitric oxide and potentially other nitrogen oxide species. In the second stage, the catalyst is used to convert other nitrogen oxide species to nitric oxide, resulting in a high efficiency of conversion.

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Operation and Maintenance Manual

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Contents Operation and Maintenance Manual Warranty Safety NoticesAcknowledgements Manual Part NumberEnglish WA R N I N GIs not in use Español Français Deutsch Italiano Dutch Veiligheidsvoorzieningen niet meerFollowing symbols are used on the equipment Contents Installation OverviewFront Panel Controls and Initial Startup OperationMaintenance Pump MaintenanceTroubleshooting IndexOperation and Maintenance Manual Introduction Operation and Maintenance Manual System Description Specifications Technical Information 355 SCDTechnical Information 255 NCD Physical Specifications Power requirementsVoltage Theory of Operation Sulfur Chemiluminescence DetectorNitrogen Chemiluminescence Detector Dual Plasma Controller Dual Plasma Burner with the 355 SCDDescription of Major Components Dual Plasma BurnerCross-Section of the Dual Plasma Burner for the 355 SCD Cross-Section of the Dual Plasma Burner for the 255 NCD Ozone Generator Chemiluminescence Reaction Cell and Photomultiplier Tube355 SCD Left Side 355 SCD Right Side 255 NCD Left Side View Pressure Transducer Vacuum PumpChemical Trap Oil Coalescing FilterFID 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 Power Requirements Selecting a LocationEnvironmental Considerations Combustion Gas RequirementsTwo-stage pressure regulators Venting Gases Required Installation Tools Unpack and Inspect the InstrumentSet Up the Vacuum Pump Installing the Edwards RV5 Pump Oil-Sealed 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 Connect the Power Cord SCD 230 V Unit Rear Panel DiagramInstall the Dry Compressed Air or O2 Supply Install the Signal Output Cables Install the Dual Plasma Burner Additional informationInstall the Dual Plasma Controller Dual Plasma Controller Rear PanelInstall Column Connections Capillary ColumnsPacked Columns and Columns with an Outside Diameter 0.8 mm Install the Transfer Line Front Panel Controls and Initial Startup Power Controls Detector Front Panel ControlsSignal Controls Display Output ControlsDual Plasma Controller Controls Dual Plasma Controller Front PanelInitial Startup Vacuum TestRecorder Test Detector Interface Setup Initial CheckoutIgnition Operation Start-Up Procedure Detector Operation Detector Stability and ResponseColumn Bleed CokingContaminated Gases Fluctuating PressuresTypical Operating Conditions Typical Operating ConditionsDetection Limits Expected Detection Limits for Chromatographic ConditionsInstrument Shut-Down Daily ShutdownComplete Shutdown Using the 255 NCD in Nitrosamine Mode Special Operating ModesOperation and Maintenance Manual Operation and Maintenance Manual Maintenance Pump Maintenance Operating Life of Components for Edwards RV5 Vacuum PumpCleaning the Detector Changing the Oil Mist Filter RV5 Reaction Cell Cleaning EquipmentReaction Cell, PMT Housing and PMT Socket WA R N I N G Flow Sensor Calibration Detector Sensitivity MDLSCD 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 Power Problems Detector FuseVacuum Pump Fuse Dual Plasma Controller FusesFuse Positions on the Power Supply Board Ozone Generation Problems High Voltage TransformerPlugged Restrictor Lines Response Problems Temperature Reading Problems Diagnosing General Problems Troubleshooting Detector IssuesDetector gases Troubleshooting Pump Issues Troubleshooting Burner Issues Index Agilent Technologies, Inc
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