Description
Cross Flow Nebulizer – High Flow – 500-94
P/N: 500-94
Cross Reference(s)
Agilent: G1833-80301
Instrument Compatibility:
For Agilent
Detail:
Cross Flow Nebulizer, High Flow, Standard nebulizer for older inert kits. Resistant to HF.
Sold Separately: Argon Inlet Fitting for Crossflow Nebulizer P/N: 520-38
Crossflow Nebulizer: Precision in ICP Analysis
Crossflow nebulizers play a crucial role in Inductively Coupled Plasma (ICP) systems. They ensure precise sample introduction, which is vital for accurate analysis. By converting liquid samples into fine aerosol, these nebulizers enhance the efficiency and sensitivity of ICP instruments. This precision allows for the detection of trace elements and isotopes, making crossflow nebulizers indispensable in various analytical applications.
Nebulizer Design and Functionality
The design of crossflow nebulizers is optimal for performance and reliability. Therefore, they typically feature a gas and liquid inlet, where the sample solution is introduced. In addition, the nebulizer uses a high-velocity gas stream to break the liquid into tiny droplets, creating a fine mist. This mist is then transported to the plasma torch for ionization. As a result, the simplicity and robustness of this design ensure consistent performance, even with complex sample matrices.
Industry Utilization and Selection
Crossflow nebulizers are widely popular across multiple industries, including environmental monitoring, pharmaceuticals, and food safety. That is because their ability to handle a variety of sample types makes them versatile and highly sought after. When selecting a crossflow nebulizer, factors such as sample composition, sensitivity requirements, and instrument compatibility are important to consider. This ensures optimal performance and accurate results in diverse analytical scenarios.
Optimal Materials for Crossflow Nebulizers
The choice of materials for crossflow nebulizers is critical for their durability and performance. For example, common materials include glass, quartz, and various polymers. Glass and quartz work best because of their chemical resistance and ability to produce fine aerosols. Polymers, on the other hand, offer durability and cost-effectiveness. Selecting the right material depends on the specific application and the nature of the samples.
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