Parker Balston gas generators completely eliminate the safety hazards involved with handling high pressure cylinders. Enjoy hassle-free automations with no tanks to change and no downtime.
Thousands of laboratories worldwide have Parker Balston gas generators in routine use. Parker Balston gas generators are recommended and used by major instrument manufacturers. We offer the best technology at an affordable price from the brand you trust.
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The Safe Way to Provide Gases for the Analytical Laboratory 29 September 2011Compressed gases such as zero air, nitrogen and hydrogen are commonly used in the laboratory for a broad range of instrumentation such as GC with FID, LC-MS and FTIR. In many laboratories, the compressed gas source is a high pressure gas cylinder. These cylinders are filled to a high pressure, typically, 2000 psi. The primary disadvantages of gas supply in the form of high pressure cylinders are safety, cost, and delivery and service inconveniences.
In-House Generation of Carrier Gas for TOC Analyzers 20 January 2011Making a case for in-house generation of carrier gas for TOC Analyzers.
Considerations on Switching from Helium to Hydrogen 20 January 2011Analysts need to make decisions about their approach to switching the carrier gas to hydrogen
Advantages of In-House Generation of Nitrogen for HPLC with ELSD 25 June 2010An in-house nitrogen generator provides a number of significant benefits to the operator of an HPLC with an ELSD, including a dramatic improvement in safety, a significant increase in convenience, and a lowering of the cost of supplying the gas.
How to Convert from Helium to Hydrogen as a Carrier Gas in Gas Chromatography 31 March 2010This how to guide will take you through the steps necessary to convert from Helium to Hydrogen as a carrier gas for Gas Chromatography. The use of Hydrogen from an in-house generator will lead to considerable benefits to cost, safety, and convenience...
Select an application AA SpectrophotometersAnalytical instruments requiring nitrogenAny analytical instrument requiring moisture-free and particle-free airCarrier gas for all brands of GCs and detectorsChemical Solvent EvaporationCircular Dichroism and Gel Permeation needsCombustion/carrier gas for TOC instrumentsDNA Synthesis and Sequencing EquipmentDry air for NMR SpectrometersElectron MicroscopesELSDFuel and carrier gas for GCsGC-FIDHigh flow carrier gas needsI FunnelICPICP optical or camera path purgeJet StreamLC/MSMake-up gas requirementsMask AlignersMocon Moisture AnalyzersNebulizer and exhaust pump gas for LC/MS InstrumentsNebulizer Gases for APCI and ESINMR SpectrometersOxident/support gas for GC with FID, FPD, and NPD detectorsProvide Carrier, Fuel Gas, and Support Air for 1-3 FIDs and 1-3 Capillary ColumnsProvide clean, dry instrument air at -100°F dew pointProvide clean, dry, CO2-free air to all brands of FT-IR SpectrometersProvide fuel gas and support air to 10-11 Flame Ionization Detectors, Flame Photometric Detectors, or Total Hydrocarbon AnalyzersReaction gas for ELCDsReagent gas for AEDsSolvent EvaporationSolvent EvaporatorsSupply gas for Gel Permeation ChromatographySupply gas for Total Organic Halogen AnalyzersSupport gas for Total Hydrocarbon AnalyzersThermal AnalyzersTurbo Vaps
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